Novel cell line and uses thereof

ABSTRACT

The present invention provides a non-naturally occurring dendritic-like myeloid leukaemia cell according to ATCC Patent Deposit Designation PTA-123875, and methods and kits utilising such cells.

This application is a § 371 application of PCT/EP2018/075829, filed Sep. 24, 2018, which claims priority to GB 1715445.1, filed Sep. 25, 2017. The foregoing applications are incorporated by reference herein.

FIELD OF INVENTION

The present invention provides a non-naturally occurring dendritic-like cell line and methods and kits utilising such cells.

BACKGROUND

Dendritic cells (DCs) play key roles in the immune response by bridging the essential connections between innate and adaptive immunity. They can, upon triggering, rapidly produce large amounts of mediators, which influence migration and activation of other cells at the site of inflammation, and selectively respond to various pathogens and environmental factors, by fine-tuning the cellular response through antigen-presentation. Thus, exploring and utilizing the immunological decision-making by DCs during stimulation with sensitizers, can serve as a potent test strategy for prediction of sensitization.

However, multifaceted phenotypes and specialized functions of different DC subpopulations, as well as their wide and scarce distribution, are complicating factors, which impede the employment of primary DCs as a test platform. Hence, there is a real need to establish accurate and reliable in vitro assays that also circumvent the problems associated with variability of and difficulty in obtaining primary DCs, such as by utilising dendritic-like model cell lines.

The Genomic Allergen Rapid Detection (GARD) is an in vitro assay developed for the assessment of chemical and protein sensitizers and allergens. It uses transcriptional profiles from a dendritic cell-like cell line, to predict the sensitizing or allergenic potential of test agents (9). The transcriptional profiles consist of genes that were identified as having the greatest predicting performance in distinguishing sensitizers from non-sensitizers. Specifically, GARD has been developed to identify: skin sensitizers (WO 2012/056236; Johansson et al. (2017) Evaluation of the GARD assay in a blind Cosmetics Europe study. ALTEX Online first Feb. 17, 2017; Forreryd et al. (2016) From genome-wide arrays to tailor-made biomarker readout—Progress towards routine analysis of skin sensitizing chemicals with GARD. Toxicolgy In Vitro; Johansson et al. (2014) GARD in-house validation—A proof of concept. Tox Sci; Johansson et al., (2011) A genomic biomarker signature can predict skin sensitizers using a cell-based in vitro alternative to animal tests. BMC Genomics, 2011); respiratory sensitizers (WO 2013/160882; WO 2016/083604; Forreryd et al. (2015) Prediction of chemical Respiratory sensitizers using GARD, a novel in vitro assay based on a genomic biomarker signature. PLoS One 10(3)); the potency of skin sensitizers (PCT/EP2017/056878; Zeller et al. (2017) The GARD platform for potency assessment of skin sensitizing chemicals. ALTEX Online first published Apr. 12, 2017, version 2 https://doi.org/10.14573/altex.1701101); and the allergenicity of proteins.

SUMMARY OF INVENTION

The inventors now provide a non-naturally occurring dendritic-like myeloid leukemia cell line termed “SenzaCell” (ATCC Patent Deposit Designation PTA-123875) as a preferred dendritic cell-like cell line suitable for use in GARD assays. SenzaCell has been compared to the MUTZ-3 cell line which may also be used in GARD assays; MUTZ-3 cells are dendritic-like cells available from Deutsche Sammlung für Mikroorganismen and Zellkulturen GmbH (DSMZ), Braunschweig, Germany (www.dsmz.de; DSMZ No. ACC 295). MUTZ-3 cells are however protocolled to require culture with a feeder cell line which complicates their use. Therefore, there remains a need for alternatives to MUTZ-3 for use in methods such as the GARD assays.

The comparison between SenzaCell and MUTZ-3 included a phenotypic analysis where the expression of a panel of biomarkers were compared, a transcriptional analysis where the transcription levels of the cell lines were compared, a comparison of their DNA sequences and a functional analysis, which revealed many quantifiable differences in the phenotype and transcriptional profiles and yet showed shared functionality in the GARD assays.

Therefore, in a first aspect of the invention there is provided a non-naturally occurring dendritic-like myeloid leukaemia cell according to ATCC Patent Deposit Designation PTA-123875.

The cell is also referred to herein as “SenzaCell”. SenzaCell (ATCC Patent Deposit Designation PTA-123875) was deposited at the American Type Culture Collection (ATCC), 10801 University Blvd, Manassas, Va. 20110, USA, by SenzaGen AB on 9 Mar. 2017.

By “non-naturally occurring”, we mean that the cell is different to, modified from, and/or a variant of, those which would be found in nature; in other words, they are not cells which would normally occur in nature. For example, different to, modified from, and/or a variant of, a naturally occurring human myeloid leukaemia cell or a naturally occurring dendritic cell.

In a second aspect of the invention there is provided a cell culture comprising a population of cells according to the first aspect.

In one embodiment the cell or population of cells comprises or consists of immortal or immortalised cells. By “immortal” we mean cells that are not limited by a point at which they can no longer continue to divide, which might otherwise be due to DNA damage or shortened telomeres. In an additional or alternative embodiment the cell or population of cells comprises or consists of undifferentiated cells.

In a third aspect of the invention there is provided an in vitro method for identifying agents capable of inducing sensitization and/or allergenicity in a mammal comprising or consisting of the steps of:

a) exposing a population of the dendritic-like cells according to the first or second aspect to a test agent; and

b) measuring in the cells the expression of one or more biomarker(s) selected from the group defined in one or more of Tables A, B, C, D, and E;

wherein the expression in the cells of the one or more biomarkers measured in step (b) is indicative of the sensitizing and/or allergenic effect of the test agent.

In a fourth aspect of the invention there is provided an in vitro method for identifying agents capable of inducing sensitization of mammalian skin comprising or consisting of the steps of:

a) exposing a population of the dendritic-like cells according to the first or second aspect to a test agent; and

b) measuring in the cells the expression of one or more biomarker(s) selected from the group defined in Table A;

wherein the expression in the cells of the one or more biomarkers measured in step (b) is indicative of the skin sensitizing effect of the test agent.

Methods for identifying agents capable of inducing sensitization of mammalian skin which may use the dendritic-like cells according to the invention are described in the functional analysis section of Example 1. The methods described in WO 2012/056236; Johansson et al. (2017) Evaluation of the GARD assay in a blind Cosmetics Europe study. ALTEX Online first Feb. 17, 2017; Forreryd et al. (2016) From genome-wide arrays to tailor-made biomarker readout—Progress towards routine analysis of skin sensitizing chemicals with GARD. Toxicolgy In Vitro; Johansson et al. (2014) GARD in-house validation—A proof of concept. Tox Sci; Johansson et al., (2011) A genomic biomarker signature can predict skin sensitizers using a cell-based in vitro alternative to animal tests. BMC Genomics, 2011, which are all incorporated herein by reference, may also be used.

In one embodiment, the method is for identifying agents capable of inducing a hypersensitivity response in human skin. Preferably, the hypersensitivity response is a cell-mediated hypersensitivity response, for example, a Type IV hypersensitivity response. Preferably, the hypersensitivity response is a Type IV delayed-type hypersensitivity reaction in a mammal. Preferably, the Type IV delayed-type hypersensitivity reaction is DC-mediated. Preferably, the method is for identifying agents capable of inducing allergic contact dermatitis (ACD) (i.e. the hypersensitivity response is ACD).

In one embodiment, the “agents capable of inducing sensitization of mammalian skin” is an agent capable of inducing and triggering a Type IV delayed-type hypersensitivity reaction at a site of epidermal contact in a mammal.

In a fifth aspect of the invention there is provided a method for identifying agents capable of inducing respiratory sensitization in a mammal comprising or consisting of the steps of:

a) exposing a population of the dendritic-like cells according to the first or second aspect to a test agent; and

b) measuring in the cells the expression of one or more biomarker(s) selected from the group defined in Table B;

wherein the expression in the cells of the one or more biomarkers measured in step (b) is indicative of the respiratory sensitizing effect of the test agent.

In a sixth aspect of the invention there is provided a method for identifying agents capable of inducing respiratory sensitization in a mammal comprising or consisting of the steps of:

a) exposing a population of the dendritic-like cells according to the first or second aspect to a test agent; and

b) measuring in the cells the expression of one or more biomarker(s) selected from the group defined in Table C;

wherein the expression in the cells of the one or more biomarkers measured in step (b) is indicative of the respiratory sensitizing effect of the test agent.

The methods of the fifth and sixth aspects may be combined such that step (b) comprises measuring in the cells the expression of one or more biomarker(s) selected from the group defined in Tables B and/or C.

Methods for identifying agents capable of inducing respiratory sensitization in a mammal which may use the dendritic-like cells according to the invention are discussed in Example 2. The methods described in WO 2013/160882; WO 2016/083604; and Forreryd et al. (2015) Prediction of chemical Respiratory sensitizers using GARD, a novel in vitro assay based on a genomic biomarker signature. PLoS One 10(3), which are all incorporated herein by reference, may also be used.

By “agents capable of inducing respiratory sensitization” we mean any agent capable of inducing and triggering a Type I immediate hypersensitivity reaction in the respiratory tract of a mammal. Preferably, the Type I immediate hypersensitivity reaction is DC-mediated and/or involves the differentiation of T cells into Th2 cells. Preferably the Type I immediate hypersensitivity reaction results in humoral immunity and/or respiratory allergy.

In one embodiment, the “agents capable of inducing sensitization of mammalian skin” is an agent capable of inducing and triggering a Type I immediate hypersensitivity reaction at a site of lung epithelium in a mammal. Preferably, the site of lung epithelium is in the respiratory zone of the lung, but may alternatively or additionally be in the conductive zone of the lung.

In a seventh aspect of the invention there is provided a method for determining the skin sensitizing potency of an agent comprising or consisting of the steps of:

(a) providing a population of the dendritic-like cells according to the first or second aspect;

(b) exposing the cells provided in step (a) to a test agent; and

(c) measuring in the cells of step (b) the expression of one or more biomarkers selected from the group defined in Table D;

wherein the expression of the one or more biomarkers measured in step (c) is indicative of the skin sensitizing potency of the test agent of step (b).

Methods for determining the skin sensitizing potency of an agent which may use the dendritic-like cells according to the invention are discussed in Example 3. The methods described in Zeller et al. (2017), The GARD platform for potency assessment of skin sensitizing chemicals. ALTEX Online first published Apr. 12, 2017, version 2 https://doi.org/10.14573/altex.1701101 and PCT/EP2017/056878, which is incorporated herein by reference, may also be used.

In an eighth aspect of the invention there is provided a method for identifying proteins which are allergenic in a mammal comprising or consisting of the steps of:

(a) providing a population of the dendritic-like cells according to the first or second aspect;

(b) exposing the cells provided in step (a) to a test protein; and

(c) measuring in the cells of step (b) the expression of one or more biomarkers selected from the group defined in Table E;

wherein the expression of the one or more biomarkers measured in step (c) is indicative of the allergenicity of the test protein of step (b).

Methods for identifying proteins which are allergenic in a mammal which may use the dendritic-like cells according to the invention are discussed in detail in Example 4.

In one embodiment the method according to any aspect of the invention further comprises:

d) exposing a separate population of the dendritic-like cells according to the first or second aspect to one or more negative control agent that does not induce sensitization and/or allergy in a mammal; and

e) measuring in the cells of step (d) the expression of the one or more biomarkers measured in step (b) or (c) wherein the test agent is identified as a sensitizer and/or as allergenic in the event that the expression of the one or more biomarkers measured in step (e) differs from the expression of the one or more biomarkers measured in step (b) or (c).

A vehicle control may be used as the negative control agent. The vehicle control may comprise DMSO and/or distilled water.

In an additional or alternative embodiment unstimulated cells may be used as the negative control. By “unstimulated cells” we include or mean cells which have not been exposed to a specific test agent.

In an additional or alternative embodiment the one or more negative control agent may comprise or consist of one or more agent selected from the group consisting of 1-Butanol; 2-Aminophenol; 2-Hydroxyethyl acrylate; 2-nitro-1,4-Phenylenediamine; 4-Aminobenzoic acid; Chlorobenzene; Dimethyl formamide; Ethyl vanillin; Formaldehyde; Geraniol; Hexylcinnamic aldehyde; Isopropanol; Kathon CG*; Methyl salicylate; Penicillin G; Propylene glycol; Potassium Dichromate; Potassium permanganate; Tween 80; and Zinc sulphate.

In an additional or alternative embodiment the expression of the one or more biomarkers measured in step (b) or (c) is measured in the cells provided in step (a) prior to and following exposure to the test agent, and wherein the difference in expression between the one or more biomarkers prior to and following exposure to the test agent is indicative of the allergenicity and/or sensitizing effect of the test agent. Hence, the cells provided in step (a) may provide both the negative control and the test result.

By “differs from the expression of the one or more biomarkers measured in step (b) or (c)” and “difference in expression” we include that the presence and or amount in a first sample (e.g., a test agent sample) differs from that of a second sample (e.g., a control agent sample).

For example, the presence and/or amount in the test sample may differ from that of the one or more negative control sample in a statistically significant manner. Preferably the expression of the one or more biomarkers in the cell population exposed to the test agent is:

less than or equal to 80% of that of the cell population exposed to the negative control agent, for example, no more than 79%, 78%, 77%, 76%, 75%, 74%, 73%, 72%, 71%, 70%, 69%, 68%, 67%, 66%, 65%, 64%, 63%, 62%, 61%, 60%, 59%, 58%, 57%, 56%, 55%, 54%, 53%, 52%, 51%, 50%, 49%, 48%, 47%, 46%, 45%, 44%, 43%, 42%, 41%, 40%, 39%, 38%, 37%, 36%, 35%, 34%, 33%, 32%, 31%, 30%, 29%, 28%, 27%, 26%, 25%, 24%, 23%, 22%, 21%, 20%, 19%, 18%, 17%, 16%, 15%, 14%, 13%, 12%, 11%, 10%, 9%, 8%, 7%, 6%, 5%, 4%, 3%, 2%, 1% or 0% of that of the cell population exposed to the negative control or negative control agent; or

at least 120% of that of the cell population exposed to the negative control agent, for example, at least 121%, 122%, 123%, 124%, 125%, 126%, 127%, 128%, 129%, 130%, 131%, 132%, 133%, 134%, 135%, 136%, 137%, 138%, 139%, 140%, 141%, 142%, 143%, 144%, 145%, 146%, 147%, 148%, 149%, 150%, 151%, 152%, 153%, 154%, 155%, 156%, 157%, 158%, 159%, 160%, 161%, 162%, 163%, 164%, 165%, 166%, 167%, 168%, 169%, 170%, 171%, 172%, 173%, 174%, 175%, 176%, 177%, 178%, 179%, 180%, 181%, 182%, 183%, 184%, 185%, 186%, 187%, 188%, 189%, 190%, 191%, 192%, 193%, 194%, 195%, 196%, 197%, 198%, 199%, 200%, 225%, 250%, 275%, 300%, 325%, 350%, 375%, 400%, 425%, 450%, 475% or at least 500% of that of the cell population exposed to the negative control or negative control agent

By “differs from the expression of the one or more biomarkers measured in step (b) or (c)” we alternatively or additionally include that the test sample is classified as belonging to a different group as the one or more negative control sample. For example, where an SVM is used, the test sample is on the other side of the decision value threshold as the one or more negative control sample (e.g., if the test agent is classified as a protein allergen if one or more test (or replicate thereof) has an SVM decision value of ≤0, then the one or more positive control samples (or the majority thereof) should also have an SVM decision value of ≤0).

In an additional or alternative embodiment the method according to any aspect of the invention further comprises:

f) exposing a separate population of the dendritic-like cells according to the first or second aspect to one or more positive control agent that induces sensitization and/or is allergenic in a mammal; and

g) measuring in the cells of step (f) the expression of the one or more biomarkers measured in step (b) or (c) wherein the test agent is identified as a sensitizer and/or as allergenic in the event that the expression of the one or more biomarkers measured in step (f) corresponds to the expression of the one or more biomarkers measured in step (b) or (c).

In an additional or alternative embodiment, the one or more positive control agent provided in step (f) comprises or consists of one or more agent selected from the group consisting of: Der p 1; and Der p 7.

In an additional or alternative embodiment, the one or more positive control agent may comprise or consist of one or more agent selected from the group consisting of Ammonium hexachloroplatinate; Ammonium persulfate; Ethylenediamine; Glutaraldehyde; Hexamethylen diisocyanate; Maleic Anhydride; Methylene diphenol diisocyanate; Phtalic Anhydride; Toluendiisocyanate; and Trimellitic anhydride.

By “corresponds to the expression of the one or more biomarkers measured in step (b) or (c)” we mean the expression of the one or more biomarkers in the cell population exposed to the test agent is identical to, or does not differ significantly from, that of the cell population exposed to the one more positive control agent. Preferably the expression of the one or more biomarkers in the cell population exposed to the test agent is between 81% and 119% of that of the cell population exposed to the one more positive control agent, for example, greater than or equal to 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% of that of the cell population exposed to the one more positive control agent, and less than or equal to 101%, 102%, 103%, 104%, 105%, 106%, 107%, 108%, 109%, 110%, 111%, 112%, 113%, 114%, 115%, 116%, 117%, 118% or 119% of that of the cell population exposed to the one more positive control agent.

By “corresponds to the expression of the one or more biomarkers measured in step (b) or (c)” we alternatively or additionally include that the test sample is classified as belonging to the same group as the one or more positive control sample. For example, where an SVM is used, the test sample is on the same side of the decision value threshold as the one or more positive control sample (e.g., if the test agent is classified as allergenic if one or more test (or replicate thereof) has an SVM decision value of >0, then the one or more positive control samples (or the majority thereof) should also have an SVM decision value of >0).

In an additional or alternative embodiment, the method is indicative of the allergenic and/or sensitizing potency of the agent to be tested. For example, the method may be used to predict the relative allergenic and/or sensitizing potency of a test agent compared to a positive control and/or compared to one or more additional test agents.

In an additional or alternative embodiment the methods comprises the further step of:

(h) identifying the allergenic and/or sensitizing effect of the test agent.

For example, step (h) may identify the test agent as being an allergen or a non-allergen and/or as a sensitizer or a non-sensitizer. Alternatively or additionally, step (h) may identify the relative allergenicity or allergenic potency and/or sensitizing effect or sensitizing potency of the test agent compared to a positive control and/or one or more additional test agents.

The identification may be performed using any suitable statistical method or machine learning algorithm known in the art, such as Random Forest (RF), Support Vector Machine (SVM), Principal Component Analysis (PCA), ordinary least squares (OLS), partial least squares regression (PLS), orthogonal partial least squares regression (O-PLS) and other multivariate statistical analyses (e.g., backward stepwise logistic regression model). For a review of multivariate statistical analysis see, for example, Schervish, Mark J. (November 1987). “A Review of Multivariate Analysis”. Statistical Science 2 (4): 396-413 which is incorporated herein by reference. Preferably, Support Vector Machine (SVM) is used.

Typically, allergenic or sensitizing agents are identified using a support vector machine (SVM), such as those available from http://cran.r-project.org/web/packages/e1071/index.html (e.g. e1071 1.5-24). However, any other suitable means may also be used. SVMs may also be used to determine the ROC AUCs of biomarker signatures comprising or consisting of one or more biomarkers as defined herein.

Support vector machines (SVMs) are a set of related supervised learning methods used for classification and regression. Given a set of training examples, each marked as belonging to one of two categories, an SVM training algorithm builds a model that predicts whether a new example falls into one category or the other. Intuitively, an SVM model is a representation of the examples as points in space, mapped so that the examples of the separate categories are divided by a clear gap that is as wide as possible. New examples are then mapped into that same space and predicted to belong to a category based on which side of the gap they fall on.

More formally, a support vector machine constructs a hyperplane or set of hyperplanes in a high or infinite dimensional space, which can be used for classification, regression or other tasks. Intuitively, a good separation is achieved by the hyperplane that has the largest distance to the nearest training datapoints of any class (so-called functional margin), since in general the larger the margin the lower the generalization error of the classifier. For more information on SVMs, see for example, Burges, 1998, Data Mining and Knowledge Discovery, 2:121-167.

In one embodiment of the invention, the SVM is ‘trained’ prior to performing the methods of the invention using biomarker profiles of known agents (namely, known allergenic/sensitizer or non-allergenic/non-sensitizer agents). By running such training samples, the SVM is able to learn what biomarker profiles are associated with agents capable of inducing allergy and/or sensitization. Once the training process is complete, the SVM is then able to predict whether or not the biomarker sample tested is from an allergenic or non-allergenic/sensitizing or non-sensitizing agent.

Decision values for individual SVMs can be determined by the skilled person on a case-by-case basis. In one embodiment, the test agent is classified as allergenic and/or a sensitizer if one or more test (or replicate thereof) have an SVM decision value of >0. In one embodiment, the test agent is classified as non-allergenic and/or a non-sensitizer if one or more test (or replicate thereof) have an SVM decision value of ≤0. This allows test agents to be classified as allergenic or non-allergenic/sensitizing or non-sensitizing.

However, this training procedure can be by-passed by pre-programming the SVM with the necessary training parameters. For example, allergenic and/or sensitizing agents can be identified according to the known SVM parameters using the SVM algorithm described in WO 2012/056236, WO 2013/160882, or WO 2016/083604, based on the measurement of all the biomarkers listed in one or more of Tables A-E.

It will be appreciated by skilled persons that suitable SVM parameters can be determined for any combination of the biomarkers listed in Tables A-E by training an SVM machine with the appropriate selection of data (i.e. biomarker measurements from cells exposed to known allergenic and/or non-allergenic agents or sensitizing and/or non-sensitizing agents). Alternatively, the Table A-E biomarkers may be used to identify allergenic proteins and/or sensitizing agents according to any other suitable statistical method known in the art.

Alternatively, the Table A-E data may be used to identify agents capable of inducing allergy and/or sensitization according to any other suitable statistical method known in the art (e.g., ANOVA, ANCOVA, MANOVA, MANCOVA, Multivariate regression analysis, Principal components analysis (PCA), Factor analysis, Canonical correlation analysis, Canonical correlation analysis, Redundancy analysis Correspondence analysis (CA; reciprocal averaging), Multidimensional scaling, Discriminant analysis, Linear discriminant analysis (LDA), Clustering systems, Recursive partitioning and Artificial neural networks).

Preferably the methods of the invention are performed in vitro.

In an additional or alternative embodiment steps (b), (c), (e) and/or (g) of the methods of the invention comprise or consist of measuring the expression of two or more biomarkers listed in Tables A, B, C, D or E, for example, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, 240, 241, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254, 255, 256, 257, 258, 259, 260, 261, 262, 263, 264, 265, 266, 267, 268, 269, 270, 271, 272, 273, 274, 275, 276, 277, 278, 279, 280, 281, 282, 283, 284, 285, 286, 287, 288, 289, 290, 291, 292, 293, 294, 295, 296, 297, 298, 299, 300, 301, 302, 303, 304, 305, 306, 307, 308, 309, 310, 311, 312, 313, 314, 315, 316, 317, 318, 319, 320, 321, 322, 323, 324, 325, 326, 327, 328, 329, 330, 331, 332, 333, 334, 335, 336, 337, 338, 339, 340, 341, 342, 343, 344, 345, 346, 347, 348, 349, 350, 351, 352, 353, 354, 355, 356, 357, 358, 359, 360, 361, 362, 363, 364, 365, 366, 367, 368, 369, 370, 371, 372, 373, 374, 375, 376, 377, 378, 379, 380, 381, 382, 383, 384, 385, 386, 387, 388, 389, 390, or 391 of the biomarkers listed in Tables A, B, C, D or E. For example, steps (b), (c), (e) and/or (g) may comprise or consist of measuring the expression of all of the biomarkers listed in Tables A, B, C, D or E.

By “expression” we mean the presence, level and/or amount of the biomarker.

By “biomarker” we include any biological molecule, or component or fragment thereof, the measurement of which can provide information useful in determining the sensitizing effect and/or the allergenicity of a test agent. Thus, in the context of Tables A, B, C, D, and E, the biomarker may be a nucleic acid molecule, such as a mRNA or cDNA. Alternatively, the biomarker may be a protein encoded by the nucleic acid molecule or carbohydrate moiety, or an antigenic component or fragment thereof.

In an additional or alternative embodiment of the method of the seventh aspect the test agent is already known to be, or suspected of being, capable of inducing sensitization of the skin. For example, the test agent may already be known to be capable of inducing sensitization of the skin by using a method already known in the art, for instance a method described WO 2012/056236 and/or Johansson H et al. The GARD assay for assessment of chemical skin sensitizers. Toxicology in vitro 2013 which are incorporated herein by reference. In an alternative or additional embodiment, the method is for identifying skin sensitizer potency and skin sensitizer/non-sensitizer status of the test agent (i.e., identifying whether the test agent is a sensitizer or not and identifying its potency as a skin sensitizer). In an alternative or additional embodiment, the method comprises identifying whether the test agent is a sensitizer using the method described in WO 2012/056236 and/or Johansson H et al.

By “skin sensitizing potency” we include or mean the strength of the skin sensitizing ability of an agent. For example, the relative potency or strength of sensitizing ability of an agent might lead to the ordering of a group of test agents from most potent to least potent or vice versa, and/or it might lead to their categorization according to one or more known regulation or system. By “sensitization status” we include or mean whether or not a chemical entity (or mixture of chemical entities) is a sensitizer or not (e.g., a skin sensitizer and/or a respiratory sensitizer).

By “skin sensitizing” we mean any agent capable of inducing and triggering a Type IV delayed-type hypersensitivity reaction in a mammal. Preferably, the Type IV delayed-type hypersensitivity reaction is DC-mediated.

In an additional or alternative embodiment the skin sensitization potency determined by the method is categorised according to the European Classification, Labelling and Packaging (CLP) Regulation (EC) 1272/2008 (http://echa.europa.eu/clp-2015). This system is based on the United Nations' Globally Harmonised System (GHS) and from June 2015, the only legislation to apply to the classification and labelling of both substances and mixtures. It requires companies to classify, label and package their products appropriately before placing them on the market. It provides the categories: 1A (strong), 1B (weak), or no cat (no sensitizer).

For example, the method may provide:

(i) one or more agent of potency category 1A;

(ii) one or more agent of potency category 1B; and/or

(iii) one or more agent of potency category no category

In an additional or alternative embodiment the skin sensitization potency determined by the method is categorised according to the system described in Basketter et al., 2014, ‘Categorization of chemicals according to their relative human skin sensitizing potency,’ Dermatitis, 25(1):11-21, i.e. categories 1 (strongest sensitizer), 2, 3, 4, 5, or 6 (true non-sensitizer) (e.g. Table 4, FIG. 4).

For example, the method may provide:

(i) one or more agent of potency category 1;

(ii) one or more agent of potency category 2;

(iii) one or more agent of potency category 3;

(iv) one or more agent of potency category 4;

(v) one or more agent of potency category 5; and/or

(vi) one or more agent of potency category 6 (e.g., see present Table 8 and/or Basketter et al., 2014 supra.).

In an additional or alternative embodiment skin sensitization potency is categorised according to the local lymph node assay (LLNA) classification, Guinea pig maximisation test (GPMT) or no observed-effect level (NOEL).

For a detailed description of LLNA see Basketter, D. A., et al., Local lymph node assay—validation, conduct and use in practice. Food Chem Toxicol, 2002. 40(5): p. 593-8 which is incorporated herein by reference. For a detailed description of the guinea pig maximization test see Magnusson, B. and A. M. Kligman, The identification of contact allergens by animal assay. The guinea pig maximization test. J Invest Dermatol, 1969. 52(3): p. 268-76, which is incorporated herein by reference. For a detailed description of the no observed-effects level (NOEL) test in relation to skin sensitizer potency see Basketter et al., 2005, ‘Evaluation of the skin sensitizing potency of chemicals by using the existing methods and considerations of relevance for elicitation’ Contact Dermatitis, 52(1):39-43; and Griem, P., et al., 2003, ‘Proposal for a risk assessment methodology for skin sensitization based on sensitization potency data.’ Regul. Toxicol. Pharmacol., 38:269-290 which are incorporated herein by reference. For a correlation between NOEL and potency levels, see also WHO Library Cataloguing-in-Publication Data. Skin sensitization in chemical risk assessment. (IPCS harmonization project document: no. 5), ISBN 978 92 4 156360 4 (in particular, Table 1 on pages 26-28) which is incorporated herein by reference. For a detailed description of CLP, see (http://echa.europa.eu/clp-2015), which is incorporated herein by reference.

In an additional or alternative embodiment the expression of one or more biomarkers measured in step (c) is measured in the cells provided in step (a) prior to and following exposure to the skin sensitizing agent of predetermined potency, and wherein the difference in expression between the one or more biomarkers prior to and following exposure to the test agent is indicative of the potency of the skin sensitizing agent of step (b).

In an additional or alternative embodiment the expression of one or more biomarkers measured in step (c) is measured in the cells provided in step (a) prior to and following exposure to the skin sensitizing agent of predetermined potency, and wherein the difference in expression between the one or more biomarkers prior to and following step (c) is indicative of the potency of the skin sensitizing agent of step (b).

By ‘difference in expression’ we include that the presence and or amount in a first sample (e.g., a test agent sample) differs from that of a second sample (e.g., a control agent sample). Preferably the presence and/or amount is no more than 40% of that of the comparison sample, for example, no more than 39%, 38%, 37%, 36%, 35%, 34%, 33%, 32%, 31%, 30%, 29%, 28%, 27%, 26%, 25%, 24%, 23%, 22%, 21%, 20%, 19%, 18%, 17%, 16%, 15%, 14%, 13%, 12%, 11%, 10%, 9%, 8%, 7%, 6%, 5%, 4%, 3%, 2%, 1% or 0%.

In an additional or alternative embodiment the one or more biomarker is measured in the cells provided in step (a) prior to and following exposure to the test agent, and wherein the difference in expression between the one or more biomarkers prior to and following exposure to the test agent is indicative of the skin sensitizing potency of the test agent of step (b). Hence, the cells provided in step (a) may provide both the negative control and the test result.

In an additional or alternative embodiment the one or more biomarker is measured in the cells provided in step (a) prior to and following exposure to the test agent, and wherein the difference in expression between the one or more biomarkers prior to and following step (c) is indicative of the skin sensitizing potency of the test agent of step (b). Hence, the cells provided in step (a) may provide both the negative control and the test result.

In an additional or alternative embodiment the method comprises the further steps of:

(i) providing a further population of dendritic-like cells according to the first or second aspect;

(j) exposing the cells provided in step (i) to a skin sensitizing agent of predetermined potency;

(k) measuring in the cells of step (j) the expression of the one or more biomarkers measured in step (c);

wherein the correspondence in expression between the one or more biomarkers measured in step (c) and the one or more biomarkers measured in step (k) is indicative of the skin sensitizing potency of the test agent.

By ‘correspondence in expression’ we include that that the presence and or amount in a first sample (e.g., a test agent sample) is similar or identical to the presence and/or amount in a second sample (e.g., a control sample). Preferably the presence and/or amount is at least 60% of that of the control sample, for example, at least 65%, 66%, 67%, 68%, 69%, 70%, 71%, 72%, 73%, 74%, 75%, 76%, 77%, 78%, 79%, 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% or 100%.

In an additional or alternative embodiment the method comprises the further step of:

(I) identifying the skin sensitizing potency of the test agent.

In an additional or alternative embodiment the skin sensitizing agent of predetermined potency comprises or consist of agents selected from the group consisting of 1-Butanol, 4-Aminobenzoic acid, Benzaldehyde, Chlorobenzene, Diethyl phthalate, Dimethyl formamide, Ethyl vanillin, Glycerol, Isopropanol, Lactic acid, Methyl salicylate, Octanoic acid, Propylene glycol, Phenol, p-hydroxybenzoic acid, Potassium permanganate, Salicylic acid, Sodium dodecyl sulphate, Tween 80, Zinc sulphate, 2,4-Dinitrochlorobenzene, Oxazolone, Potassium dichromate, Kathon CG (MC/MCI), Formaldehyde, 2-Aminophenol, 2-nitro-1,4-Phenylendiamine, p-Phenylendiamine, Hexylcinnamic aldehyde, 2-Hydroxyethyl acrylate, 2-Mercaptobenzothiazole, Glyoxal, Cinnamaldehyde, Isoeugenol, Ethylendiamine, Resorcinol, Cinnamic alcohol, Eugenol, Penicillin G, Geraniol and DMSO.

In a preferred embodiment of the method of any aspect of the invention, step (b), (c), (e), (g) and/or (k) comprises or consists of measuring the expression of a nucleic acid molecule of one or more of the biomarkers. The nucleic acid molecule may be a DNA molecule or a cDNA molecule or an mRNA molecule. Preferably, the nucleic acid molecule is an mRNA molecule. However, the nucleic acid molecule may be a cDNA molecule.

In one embodiment the measurement of the expression of one or more of the biomarkers in step (b), (c), (e), (g) and/or (k) is performed using a method selected from the group consisting of Southern hybridisation, Northern hybridisation, polymerase chain reaction (PCR), reverse transcriptase PCR (RT-PCR), quantitative real-time PCR (qRT-PCR), nanoarray, microarray, macroarray, autoradiography and in situ hybridisation. Preferably, the expression of one or more biomarker(s) is measured using a DNA microarray.

In an additional or alternative embodiment the one or more biomarkers measured in step (b), (c), (e), (g) and/or (k) is measured using an array (e.g., a DNA array). In an additional or alternative embodiment the one or more biomarkers measured in step (b), (c), (e), (g) and/or (k) is measured using a whole genome array (e.g., the Affymetrix Human Gene 1.0 ST array or Affymetrix Human Gene 2.0 ST array). In an alternative or additional embodiment, the Nanostring nCounter system is used (e.g., custom Nanostring nCounter code sets based on selection from a whole genome array (e.g., Affymetrix Human Gene 1.0 ST array or Affymetrix Human Gene 2.0 ST array).

The method may comprise measuring the expression of one or more biomarkers in step (b), (c), (e), (g) and/or (k) using one or more binding moieties, each capable of binding selectively to a nucleic acid molecule encoding one of the biomarkers identified in one or more of Tables A, B, C, D, E. Preferably, the method comprises measuring the expression of two or more biomarkers in step (b), (c), (e), (g) and/or (k) using two or more binding moieties, each capable of binding selectively to a nucleic acid molecule encoding one of the biomarkers identified in one or more of Tables A, B, C, D, E. For example, the expression of any particular combination of biomarkers described above may be measured using an equivalent combination of binding moieties capable of binding selectively to each of those biomarkers.

In one embodiment the one or more binding moieties each comprise or consist of a nucleic acid molecule. In a further embodiment the one or more binding moieties each comprise or consist of DNA, RNA, PNA, LNA, GNA, TNA or PMO. Preferably, the one or more binding moieties each comprise or consist of DNA. In one embodiment, the one or more binding moieties are 5 to 100 nucleotides in length. However, in an alternative embodiment, they are 15 to 35 nucleotides in length.

The one or more binding moieties may comprise or consist of one or more probe from the Human Gene 1.0 ST Array (Affymetrix, Santa Clara, Calif., USA). Probe identification numbers are provided in Tables A-E herein.

Suitable binding agents (also referred to as binding molecules or binding moieties) may be selected or screened from a library based on their ability to bind a given nucleic acid, protein or amino acid motif, as discussed below.

In a preferred embodiment, the binding moiety comprises a detectable moiety.

By a “detectable moiety” we include a moiety which permits its presence and/or relative amount and/or location (for example, the location on an array) to be determined, either directly or indirectly.

Suitable detectable moieties are well known in the art.

For example, the detectable moiety may be a fluorescent and/or luminescent and/or chemiluminescent moiety which, when exposed to specific conditions, may be detected. Such a fluorescent moiety may need to be exposed to radiation (i.e. light) at a specific wavelength and intensity to cause excitation of the fluorescent moiety, thereby enabling it to emit detectable fluorescence at a specific wavelength that may be detected.

Alternatively, the detectable moiety may be an enzyme which is capable of converting a (preferably undetectable) substrate into a detectable product that can be visualised and/or detected. Examples of suitable enzymes are discussed in more detail below in relation to, for example, ELISA assays.

The detectable moiety may be a radioactive moiety and comprise or consists of a radioactive atom. The radioactive atom may be selected from the group consisting of technetium-99m, iodine-123, iodine-125, iodine-131, indium-111, fluorine-19, carbon-13, nitrogen-15, oxygen-17, phosphorus-32, sulphur-35, deuterium, tritium, rhenium-186, rhenium-188 and yttrium-90.

Hence, the detectable moiety may be selected from the group consisting of: a fluorescent moiety; a luminescent moiety; a chemiluminescent moiety; a radioactive moiety (for example, a radioactive atom); or an enzymatic moiety.

Clearly, the agent to be detected (such as, for example, the one or more biomarkers in the test sample and/or control sample described herein and/or an antibody molecule for use in detecting a selected protein) must have sufficient of the appropriate atomic isotopes in order for the detectable moiety to be readily detectable.

In an alternative preferred embodiment, the detectable moiety of the binding moiety is a fluorescent moiety.

The radio- or other labels may be incorporated into the biomarkers present in the samples of the methods of the invention and/or the binding moieties of the invention in known ways. For example, if the binding agent is a polypeptide it may be biosynthesised or may be synthesised by chemical amino acid synthesis using suitable amino acid precursors involving, for example, fluorine-19 in place of hydrogen. Labels such as ^(99m)Tc, ¹²³I, ¹⁸⁶Rh, ¹⁸⁸Rh and ¹¹¹In can, for example, be attached via cysteine residues in the binding moiety. Yttrium-90 can be attached via a lysine residue. The IODOGEN method (Fraker et al (1978) Biochem. Biophys. Res. Comm. 80, 49-57) can be used to incorporate ¹²³I. Reference (“Monoclonal Antibodies in Immunoscintigraphy”, J-F Chatal, CRC Press, 1989) describes other methods in detail. Methods for conjugating other detectable moieties (such as enzymatic, fluorescent, luminescent, chemiluminescent or radioactive moieties) to proteins are well known in the art.

It will be appreciated by persons skilled in the art that biomarkers in the sample(s) to be tested may be labelled with a moiety which indirectly assists with determining the presence, amount and/or location of said proteins. Thus, the moiety may constitute one component of a multicomponent detectable moiety. For example, the biomarkers in the sample(s) to be tested may be labelled with biotin, which allows their subsequent detection using streptavidin fused or otherwise joined to a detectable label.

The method provided in the first aspect of the present invention may comprise or consist of, in step (b), (c), (e), (g) and/or (k), determining the expression of the protein of one or more biomarker defined in one or more of Tables A-E. The method may comprise measuring the expression of one or more biomarkers in step (b), (c), (e), (g) and/or (k) using one or more binding moieties each capable of binding selectively to one of the biomarkers identified in one or more of Tables A-E. The one or more binding moieties may comprise or consist of an antibody or an antigen-binding fragment thereof such as a monoclonal antibody or fragment thereof.

The term “antibody” includes any synthetic antibodies, recombinant antibodies or antibody hybrids, such as but not limited to, a single-chain antibody molecule produced by phage-display of immunoglobulin light and/or heavy chain variable and/or constant regions, or other immunointeractive molecules capable of binding to an antigen in an immunoassay format that is known to those skilled in the art. We also include the use of antibody-like binding agents, such as affibodies and aptamers.

The one or more protein-binding moieties may comprise a detectable moiety. The detectable moiety may be selected from the group consisting of a fluorescent moiety, a luminescent moiety, a chemiluminescent moiety, a radioactive moiety and an enzymatic moiety.

In a further embodiment of the methods of the invention, step (b), (c), (e), (g) and/or (k) may be performed using an assay comprising a second binding agent capable of binding to the one or more proteins, the second binding agent also comprising a detectable moiety. Suitable second binding agents are described in detail above in relation to the first binding agents.

Thus, the proteins of interest in the sample to be tested may first be isolated and/or immobilised using the first binding agent, after which the presence and/or relative amount of said biomarkers may be determined using a second binding agent.

In one embodiment, the second binding agent is an antibody or antigen-binding fragment thereof; typically a recombinant antibody or fragment thereof. Conveniently, the antibody or fragment thereof is selected from the group consisting of: scFv; Fab; a binding domain of an immunoglobulin molecule. Alternatively, the second binding agent may be an antibody-like binding agent, such as an affibody or aptamer.

Alternatively, where the detectable moiety on the protein in the sample to be tested comprises or consists of a member of a specific binding pair (e.g. biotin), the second binding agent may comprise or consist of the complimentary member of the specific binding pair (e.g. streptavidin).

Where a detection assay is used, it is preferred that the detectable moiety is selected from the group consisting of: a fluorescent moiety; a luminescent moiety; a chemiluminescent moiety; a radioactive moiety; an enzymatic moiety. Examples of suitable detectable moieties for use in the methods of the invention are described above.

Preferred assays for detecting serum or plasma proteins include enzyme linked immunosorbent assays (ELISA), radioimmunoassay (RIA), immunoradiometric assays (IRMA) and immunoenzymatic assays (IEMA), including sandwich assays using monoclonal and/or polyclonal antibodies. Exemplary sandwich assays are described by David et al in U.S. Pat. Nos. 4,376,110 and 4,486,530, hereby incorporated by reference. Antibody staining of cells on slides may be used in methods well known in cytology laboratory diagnostic tests, as well known to those skilled in the art.

Thus, in one embodiment the assay is an ELISA (Enzyme Linked Immunosorbent Assay) which typically involves the use of enzymes which give a coloured reaction product, usually in solid phase assays. Enzymes such as horseradish peroxidase and phosphatase have been widely employed. A way of amplifying the phosphatase reaction is to use NADP as a substrate to generate NAD which now acts as a coenzyme for a second enzyme system. Pyrophosphatase from Escherichia coli provides a good conjugate because the enzyme is not present in tissues, is stable and gives a good reaction colour. Chemiluminescent systems based on enzymes such as luciferase can also be used.

Conjugation with the vitamin biotin is frequently used since this can readily be detected by its reaction with enzyme-linked avidin or streptavidin to which it binds with great specificity and affinity.

In an alternative embodiment, the assay used for protein detection is conveniently a fluorometric assay. Thus, the detectable moiety of the second binding agent may be a fluorescent moiety, such as an Alexa fluorophore (for example Alexa-647).

Preferably, steps (b) (c), (e), (g) and/or (k) of the methods are performed using an array. The array may be a bead-based array or a surface-based array. The array may be selected from the group consisting of: macroarray; microarray; nanoarray.

Arrays per se are well known in the art. Typically they are formed of a linear or two-dimensional structure having spaced apart (i.e. discrete) regions (“spots”), each having a finite area, formed on the surface of a solid support. An array can also be a bead structure where each bead can be identified by a molecular code or colour code or identified in a continuous flow. Analysis can also be performed sequentially where the sample is passed over a series of spots each adsorbing the class of molecules from the solution. The solid support is typically glass or a polymer, the most commonly used polymers being cellulose, polyacrylamide, nylon, polystyrene, polyvinyl chloride or polypropylene. The solid supports may be in the form of tubes, beads, discs, silicon chips, microplates, polyvinylidene difluoride (PVDF) membrane, nitrocellulose membrane, nylon membrane, other porous membrane, non-porous membrane (e.g. plastic, polymer, perspex, silicon, amongst others), a plurality of polymeric pins, or a plurality of microtitre wells, or any other surface suitable for immobilising proteins, polynucleotides and other suitable molecules and/or conducting an immunoassay. The binding processes are well known in the art and generally consist of cross-linking covalently binding or physically adsorbing a protein molecule, polynucleotide or the like to the solid support. Alternatively, affinity coupling of the probes via affinity-tags or similar constructs may be employed. By using well-known techniques, such as contact or non-contact printing, masking or photolithography, the location of each spot can be defined. For reviews see Jenkins, R. E., Pennington, S. R. (2001, Proteomics, 2, 13-29) and Lal et al (2002, Drug Discov Today 15; 7(18 Suppl):S143-9).

Typically the array is a microarray. By “microarray” we include the meaning of an array of regions having a density of discrete regions of at least about 100/cm², and preferably at least about 1000/cm². The regions in a microarray have typical dimensions, e.g. diameter, in the range of between about 10-250 μm, and are separated from other regions in the array by about the same distance. The array may alternatively be a macroarray or a nanoarray.

Once suitable binding molecules (discussed above) have been identified and isolated, the skilled person can manufacture an array using methods well known in the art of molecular biology.

In an additional or alternative embodiment one or more biomarker measured in step (b), (c), (e), (g) and/or (k) is a nucleic acid (e.g., DNA, mRNA or cDNA etc). In an additional or alternative embodiment one or more biomarkers measured in step (b), (c), (e), (g) and/or (k) is a protein or polypeptide.

In an additional or alternative embodiment the method is performed in vitro, in vivo, ex vivo or in silico. Preferably, the method is performed in vitro.

In an additional or alternative embodiment, the method comprises one or more of the following steps:

(i) cultivating dendritic-like cells according to the first or second aspect;

(ii) seeding cells of (i) in one or more wells, preferably at steady state growth phase, e.g. wells of one or more multi-well assay plate;

(iii) adding to one or more well(s) of (ii) the agent(s) to be tested;

(iv) adding to one or more separate well(s) of (ii) positive control(s);

(v) adding to one or more separate well(s) of (ii) negative control(s); and/or leaving one or more separate well(s) of (ii) unstimulated to obtain a medium control;

(vi) incubating cells in wells of (iii)-(v), preferably for about 24 hours; and, optionally, harvesting cells from wells of (iii)-(v); and, further optionally, removing supernatant and storing in TRIzol reagent;

(vii) isolating purified total RNA from the cells of (vi) and, optionally, converting mRNA into cDNA;

(viii) quantifying expression levels of individual mRNA transcripts from (vii), e.g. using an array, such as an Affymetrix Human Gene 1.0 ST array;

(ix) exporting and normalizing data from (viii), e.g. using appropriate algorithms;

(x) isolating data from (ix) originating from biomarkers of one or more of Tables A-E);

(xi) applying a prediction model to the data of (x), e.g. a frozen SVM model previously established and trained on historical data to predict the allergenicity or sensitizer status (e.g. classify as allergen/non-allergen and/or sensitizer/non-sensitizer), of tested agents(s) and negative/positive control(s).

By “test protein” we include any protein or proteinaceous entity (or mixture of proteins or proteinaceous entities) for which allergenic or sensitization status is to be determined.

By “allergenic” we include or mean a protein (or mixture of proteins) which is an allergen, and/or which is capable of inducing an allergic response, in a mammal.

In an additional or alternative embodiment the allergenicity comprises a hypersensitivity response (e.g., a cell-mediated hypersensitivity response). In an additional or alternative embodiment the hypersensitivity response is a type I hypersensitivity response. In an additional or alternative embodiment the hypersensitivity response is respiratory allergy.

In an additional or alternative embodiment, the method of the eighth aspect is for identifying the sensitization status of a protein in a mammal. For example, the expression of the one or more biomarkers measured in step (b) or (c) may be indicative of the sensitization status of the test protein. By “sensitization status” we include or mean whether or not a test protein (or mixture of test proteins) is a sensitizer or not (e.g., a skin sensitizer and/or a respiratory sensitizer). In an additional or alternative embodiment, the method is for identifying proteins which are capable of inducing respiratory sensitization in a mammal. For example, the expression of the two or more biomarkers measured in step (c) may be indicative of the respiratory sensitizing effect of the test protein. In one embodiment, the method is for identifying proteins capable of inducing a respiratory hypersensitivity response. Preferably, the hypersensitivity response is a humoral hypersensitivity response, for example, a type I hypersensitivity response. In one embodiment, the method is for identifying agents capable of inducing respiratory allergy.

By “indicative of the respiratory sensitizing effect of the test protein” we include determining whether or not the test protein is a respiratory sensitizer and/or determining the potency of the test protein as a respiratory sensitizer. By proteins “capable of inducing respiratory sensitization” we mean any protein capable of inducing and triggering a Type I immediate hypersensitivity reaction in the respiratory tract of a mammal. Preferably the mammal is a human. Preferably, the Type I immediate hypersensitivity reaction is DC-mediated and/or involves the differentiation of T cells into Th2 cells. Preferably the Type I immediate hypersensitivity reaction results in humoral immunity and/or respiratory allergy.

The conducting zone of the mammalian lung contains the trachea, the bronchi, the bronchioles, and the terminal bronchioles. The respiratory zone contains the respiratory bronchioles, the alveolar ducts, and the alveoli. The conducting zone is made up of airways, has no gas exchange with the blood, and is reinforced with cartilage in order to hold open the airways. The conducting zone humidifies inhaled air and warms it to 37° C. (99° F.). It also cleanses the air by removing particles via cilia located on the walls of all the passageways. The respiratory zone is the site of gas exchange with blood.

In one embodiment, the protein “capable of inducing respiratory sensitization” is a protein capable of inducing and triggering a Type I immediate hypersensitivity reaction at a site of lung epithelium in a mammal. Preferably, the site of lung epithelium is in the respiratory zone of the lung, but may alternatively or additionally be in the conductive zone of the lung.

In an additional or alternative embodiment, the method is for identifying food proteins which are allergenic in a mammal. For example, the expression of the two or more biomarkers measured in step (c) may be indicative of the allergenicity of the food protein. Preferably, the allergenicity of the food protein is due to a Type 1 hypersensitivity response.

The mammal may be any domestic or farm animal. Preferably, the mammal is a rat, mouse, guinea pig, cat, dog, horse or a primate. Most preferably, the mammal is human.

In a further aspect of the invention there is provided the use of a population of dendritic-like cells according to the first or second aspect for determining the sensitizing effect and/or the allergenicity of a test agent.

In a further aspect of the invention there is provided an analytical kit comprising:

i. an array comprising one or more binding moieties; and

ii. one or more cell or a cell culture as defined in the first or second aspect; and

iii. (optionally) one or more control agent; and

iv. (optionally) instructions for use.

In a further aspect of the invention there is provided an analytical kit for use in a method of the invention comprising:

i. an array comprising one or more binding moieties as defined herein; and

ii. one or more cell or a cell culture as defined in the first or second aspects; and

iii. (optionally) one or more control agent; and

iv. (optionally) instructions for performing the method of the invention.

The skilled person will appreciate that all non-conflicting embodiments may be used in combination. Hence, embodiments from one aspect of the invention may equally be applied to another aspect of the invention.

The listing or discussion of an apparently prior-published document in the specification should not necessarily be taken as an acknowledgment that the document is part of the state of the art or common general knowledge.

Preferred, non-limiting examples which embody certain aspects of the invention will now be described, with reference to the following figures:

FIG. 1. The expression levels for the different surface markers were used in a hierarchical clustering to compare the cell lines. The numbers in the label represents the experiments. The clustering groups the cells in two separate clusters.

FIG. 2. SenzaCell; Distribution of the biological processes that were associated with the genes predicted to be affected with high or moderate impact by the unique variants.

FIG. 3. MUTZ-3; Distribution of the biological processes that were associated with the genes predicted to be affected with high or moderate impact by the identified variants.

FIG. 4. A) A hierarchical clustering of the RNA-seq data shows a separate cluster for the samples obtained at experiment 3. The cells from experiment 1 and 2 form separate clusters for the cell lines. B) The PCA plot of the samples show that the largest source of variation can be explained by differences between the cell lines. It is also clear that the samples prepared at experiment 3 deviates from the remaining samples.

FIG. 5. The pie chart represents the distribution of the molecular functions that the discovered Differentially Expressed Genes (DEGs) were mapped to using PANTHER.

FIG. 6. SVM skin sensitizer predictions when using the expression values obtained from MUTZ-3 and SenzaCell after being stimulated with the test chemicals DNCB and 2-hydroxyethylacrylate. All the predictions correctly correspond to the true class.

EXAMPLE 1 Background

Allergic contact dermatitis (ACD) is an inflammatory skin disease that affects a large proportion of the population. It is caused by the repeated exposure to skin sensitizers and results in symptoms such as eczema. The sensitization phase of ACD requires a skin sensitizer to activate an immune response leading to the production of allergen specific effector and memory T-cells (1). The known mechanisms for sensitization have been well described (1-4). In short, skin sensitizers gain access to the viable dermis where it reacts with proteins to form hapten-protein complexes. These hapten-protein complexes can be recognized by different immune cells or structural cells that exert inflammatory signals. Activated dendritic cells process the hapten-protein complexes and migrate to lymph nodes where they present them to naïve T-cells on MHC-molecules. Subsequently, effector and memory T-cells are produced that upon renewed exposure to the same sensitizer elicits inflammatory functions, giving rise to the symptoms of ACD (3). Conventional methods for assessing chemicals' abilities to induce allergic reactions at skin contact have mainly been conducted using animal models (1). Legislations and trends drive research to come up with better and more ethical in-vitro methods for the evaluation of chemical sensitizers (5-7).

The Genomic Allergen Rapid Detection (GARD) is an in vitro assay developed at Department of Immunotechnology, Lund University, for the assessment of chemical sensitizers. It uses transcriptional profiles from a dendritic cell-like cell line (8), to predict the sensitizing potential of chemicals (9). The transcriptional profiles consist of genes that were identified as having the greatest predicting performance in distinguishing sensitizers from non-sensitizers. The genes were identified using statistical data mining methods on transcription data originating from Affymetrix microarrays. No a priori information of the genes in the GARD Prediction Signature (GPS) were used for their identification, which could have made the signature specific for the cell line (10).

The inventors now provide a non-naturally occurring dendritic-like myeloid leukemia cell line “SenzaCell” (ATCC Patent Deposit Designation PTA-123875; deposited at ATCC on 9 Mar. 2017) which is suitable for use in the GARD assays. SenzaCell has been compared to the MUTZ-3 dendritic-like cell line which may also be used in GARD methods. The comparison included a phenotypic analysis where the expression of a panel of biomarkers were compared, a transcriptional analysis where the transcription levels of the cell lines were compared, a comparison of their DNA sequences and a functional analysis, which revealed many quantifiable differences in the phenotype and transcriptional profiles.

Materials and Methods

Cell Maintenance

MUTZ-3 (DSMZ, Braunschweig, Germany (www.dsmz.de; DSMZ No. ACC 295)) and SenzaCell cells were cultivated in minimum essential medium alpha (α-MEM) (GE Healthcare Life Sciences, Logan, Utah) supplemented with 20% (V/V) fetal calf serum (FCS) (Thermo Fisher Scientific, Waltham, Mass.) and 40 ng/ml granulocyte macrophage colony stimulating factor (GM-CSF) (Miltenyi Biotec, Bergisch Gladbach, Germany). Throughout this report the media is referred to as complete media. Cells were maintained at a concentration of 200 000 cells/ml and the media was renewed every 3-4 days. The cells were maintained at 37° C. and 5% CO₂.

Phenotypic Characterization

Growing cells were harvested, counted and seeded at a concentration of 200 000 cells/ml in complete media. To prepare the cells for staining, 1 ml of cell suspension was transferred to FACS tubes. The cells were washed in wash buffer, PBS (GE Healthcare Life Sciences) with 1% BSA (Saveen & Werner, Limhamn, Sweden) (w/V), twice. All washing steps were performed by the addition of 1 ml of wash buffer, centrifugation at 1200 rpm at 4° C. and removal of the supernatant. After the second wash, the cells were resuspended in 50 μl wash buffer. The antibodies; isotype PE/FITC, CD40 FITC, CD54 PE, CD86 FITC (BD Pharmingen, San Diego, Calif.); CD1a FITC, CD5 FITC, CD14 PE, CD19 PE (DAKO); CD13 PE, CD123 PE, OX40L PE (Pharmingen, San Diego, Calif.); CD11b PE, CD34 FITC, CD32 FITC, CD80 PE, HLA-DR FITC, CD137 PE, CD16 PE, CD64 PE (BD, Franklin Lakes, N.J.); BDCA-3 APC (Miltenyi, Bergisch Gladbach, Germany); CD209 PE (R&D Systems, Minneapolis, Minn.); BDCA-1 APC (eBioscience, San Diego, Calif.); OX40 PE (BD Bioscience, San Jose, Calif.); CD15 FITC (Milteny); TLR2 PE, TLR4 PE (biolegend, San Diego, Calif.), were added to the resuspended cells and incubated for 15 min at 4° C. in the dark. Following staining, the cells were washed in wash buffer once more and then resuspended in 200 μl of wash buffer. The cells were kept in 4° C. until analyzed with flow cytometry. The flow cytometry was performed on a FACS CANTO II (BD Bioscience) with BD DIVA software (BD Bioscience) as the data acquisition program where 10 000 events were recorded for each sample. The data was analyzed using FACS Express V3 (De Novo Software, Los Angeles, Calif.). Appropriate gates were set using isotype controls and unstained cells. The measurements were performed at three separate experiments with technical duplicates at each, generating 6 measurements for each marker and cell line.

The expression levels were compared using t-tests where the generated p-values were corrected with the Benjamini Hochberg method to control the false discovery rate. A clustering algorithm was performed to compare the cell lines. The clustering was performed using R (15). A bootstrap algorithm was performed to assess the stability of the discovered clusters using the fpc (16) package. The bootstrap algorithm was run for 5000 iteration and the calculated mean Jaccard coefficients was used as an indication on cluster stability.

DNA—Whole Genome Sequencing

DNA from both MUTZ-3 and SenzaCell cells was isolated using Quick-gDNA™ Miniprep (Zymo Research, Irvine Calif.). The isolation was performed as follows; 5*10{circumflex over ( )}6 cells were harvested and centrifuged and the supernatant was removed. The remaining cell pellets were lysed in Quick-gDNA™ genomic lysis buffer and incubated for 10 minutes. The lysed cells were loaded to the supplied spin columns and washed. DNA was eluted in RNAse/DNase free water. DNA concentration and DNA purity were determined using NanoDrop, and the quality was evaluated by gel electrophoresis. The DNA whole genome sequencing was performed by SciLifeLabs (Stockholm, Sweden). The services from SciLifeLabs included library preparation, sequencing and best practice basic analysis. The DNA libraries were prepared with Illumina TruSeq PCR-free, 350 bp and the sequencing were performed with Illumina HiSeq X v2.5, PE 2×150 bp at 30× coverage.

The best practice basic analysis included mapping of the reads to the human assembly build 37 using bwa-mem. The Genome Analysis Toolkit (GATK) workflow (17, 18) for best practice analysis were followed for variant calling and genomic variant call format (gVCF) files were delivered from SciLifeLabs. The obtained gVCF files were merged and genotyped using GATK genotypeGVCFS. The variant were further processed using GATK Variant Quality Score Recalibration (VQSR) as recommended by the GATK workflow. The VQSR calculates new variant quality scores and filters variants that are predicted to be false positive discoveries using machine learning. The recalibrated variant call format (VCF) file was annotated and the variant effects were predicted using snpEff (19) to the human assembly build GRCh37.75. The variants that were unique to either of the cell lines were identified using SnpSift (20) casecontrol and the other variants were filtered using SnpSift filter. The list of unique variants was further filtered by their genotype quality scores were variants with a score <20 was removed (21). Finally variants predicted to have a high or moderate impact were retained for further analysis. PANTHER classification system (22) was used for classification of the molecular function of the genes which were identified to be impacted by the variants.

RNA—RNAseq

Total RNA was isolated from both MUTZ-3 and SenzaCell cell lines in three experiments to generate triplicate RNAseq samples. 200,000 cells were isolated and lysed in TRIzol reagent (Thermo Scientific, Waltham, Mass.). RNA was isolated using Direct-zol™ RNA Miniprep (Zymo research). The lysed samples were mixed with ethanol and added to the spin columns. The RNA was bound and washed with the supplied wash buffers. RNA was eluted in RNase/DNase free water and quality controlled with Agilent Bioanalyzer 2100 (Agilent Technologies, Santa Clara, Calif.). The samples were stored at −80° C. until shipped on dry ice to SciLifeLabs for RNA-seq. The libraries were prepared using Illumina TruSeq stranded mRNA, Poly-A selection. The sequencing was performed using Illumina HiSeq Rapid mode v2, SR 1×50 bp. The best practice basic analysis was performed by SciLifeLabs which included mapping of the reads using topHat v2.0.4 (23), sorting of the generated bam files with samtools (24), marking duplicates with piccard-tools and quantifying the counts using HTSeq (25).

The obtained count table were loaded into R and differential expression analysis was performed using edgeR v3.14.0 (26) and DESeq2 v1.12.4 (27), which performs normalization and fitting of negative binomial models to the count data, enabling effective differential expression analysis. The recommended workflows for differential expression (DE) analysis were followed for both packages. The model matrix used for hypothesis testing were designed to incorporate the experiment batch in the model due to batch effects which were discovered when analyzing PCA plots of the samples. A transcript was considered differentially expressed if both edgeR and DESeq called it significantly differentially expressed with a false discovery rate below 0.05. The molecular functions and the biological processes that the identified transcripts were mapped to were analyzed using PANTHER classification system. To identify gene ontology (GO) terms that were over- or underrepresented among the differentially expressed transcripts an overrepresentation test was performed, also using PANTHER. The background reference list was submitted as all the non-zero counts that were obtained in the count table, which is the same list that was entered into the DE analysis. The p-values of the identified GO terms were corrected with the Bonferroni method. GO terms with a corrected p-value below 0.05 were considered significantly over- or underrepresented. Additionally, pathway analysis was performed using Signaling Pathway Impact Analysis v2.24.0 (SPIA) (28) and KEGG pathways (29, 30) release 79.0. The list of significant DE transcripts was entered with accompanying log₂-fold change values and all the non-zero transcripts were entered as background. The log₂-fold change values were calculated using DESeq2 v1.12.4.

Finally a concordance analysis was made for the results of the phenotype analysis and the RNA-seq analysis. The genes corresponding to the measured surface markers were compared to the surface marker expression. The comparison was made similar to an evaluation of a classification with the classes significantly upregulated/expressed, significantly downregulated/expressed or no significant difference between the two cell lines. Therefore, if both the RNA-seq analysis and the phenotype analysis calls the transcript level or surface expression significantly higher, this would be considered a concordant result. Cohens Kappa (31) was calculated as an indication of the concordance between the analysis methods.

Functional Analysis

MUTZ-3 was used in the GARD assay to assess its ability to distinguish skin sensitizers from non-sensitizers using the GARD prediction signature as compared to SenzaCell. The GARD standard operating procedures were followed which has previously been described in detail (9). In short, the cells (MUTZ-3 or SenzaCell) were seeded in 24-well plates at a volume of 1.8 ml and a cell concentration of 222 000 cells/ml. The chemicals used for the stimulation were (2, 4)-dinitrochlorobenzene (DNCB) and 2-hydroxyethylacrylate. An unstimulated sample was also included as a negative control. DNCB was dissolved in DMSO to a concentration of 4 mM and 2-hydroxyethylacrylate in water to a concentration of 100 mM. Both chemicals were then diluted, in α-MEM supplemented with 20% FCS, 100× and finally diluted once more 10× as 200 μl was added to the wells. The in-well concentration for the stimulations was 4 μM and 100 μM for DNCB and 2-hydroxyethylacrylate, respectively. 200 μl of MEM-alpha was added to the unstimulated cells, giving an in-well cell concentration of 200 000 cells/ml for every sample. The cells were incubated with the chemicals for 24 h at 37° C. at 5% CO₂. Following incubation, cells were harvested into RNase free Eppendorf tubes and lysed in TRIzol. Cell viability was assessed by flow cytometry using propidium iodide (PI) (Thermo Fisher Scientific) staining. RNA was extracted and purified using Direct-zol RNA kits (Zymo research). RNA was extracted as described and quality controlled using Agilent Bioanalyzer 2100 Samples with an RNA integrity numbers (RIN) ≥8 and an RNA concentration ≥20 ng/μl was used for quantification. The genes in the GPS (see Table A below) were quantified using NanoString nCounter systems (NanoString Technologies, Seattle, Wash.), using protocols and reagents supplied by the manufacturer. The raw counts of the genes were exported from NanoString and normalized by a count per total counts normalization, where each gene's count is divided by the sum of counts for a single sample. The classification was performed by Support vector machine from the R package e1071 (32) with a training set consisting of gene profiles of 40 chemical stimulations in replicates (10). The data was aligned with the training data prior to the classification by calculating the shifts in the first 4 principal components for the unstimulated samples in both data sets. The calculated shifts were then used to adjust every sample from the test samples.

Methodology for distinguishing skin sensitizers from non-sensitizers using the GARD prediction signature is also described in detail in WO 2012/056236; Johansson et al. (2017) Evaluation of the GARD assay in a blind Cosmetics Europe study. ALTEX Online first Feb. 17, 2017; Forreryd et al. (2016) From genome-wide arrays to tailor-made biomarker readout—Progress towards routine analysis of skin sensitizing chemicals with GARD. Toxicolgy In Vitro; Johansson et al. (2014) GARD in-house validation—A proof of concept. Tox Sci; Johansson et al., (2011) A genomic biomarker signature can predict skin sensitizers using a cell-based in vitro alternative to animal tests. BMC Genomics, 2011), each incorporated herein by reference.

TABLE A Gene Title Gene Symbol NCBI reference sequence Table A-A fatty acid synthase FASN NM_004104 squalene epoxidase SQLE NM_003129 taste receptor, type 2, member 5 TAS2R5 NM_018980 keratinocyte growth factor-like protein 1/2/hypothetical KGFLP1/2/FLJ20444 AF523265 protein FLJ20444 transmembrane anterior posterior transformation 1 TAPT1 NM_153365 Sprouty homolog 2 SPRY2 NM_005842 B-cell CLL/lymphoma 7A BCL7A NM_020993 solute carrier family 25, member 32 SLC25A32 NM_030780 ferritin, heavy polypeptide pseudogene 1 FTHP1 GENSCAN00000008165 ATPase, H+ transporting, lysosomal 50/57 kDa, V1 subunit ATP6V1H NM_015941 H Histone cluster 1, H1e HIST1H1E NM_005321 Table A-B 4-aminobutyrate aminotransferase ABAT NM_020686 abhydrolase domain containing 5 ABHD5 NM_016006 alkaline ceramidase 2 ACER2 NM_001010887 ATP citrate lyase ACLY NM_001096 actin-related protein 10 homolog ACTR10 NM_018477 ADAM metallopeptidase domain 20 ADAM20 NM_003814 aldehyde dehydrogenase 18 family, member A1 ALDH18A1 NM_002860 aldehyde dehydrogenase 1 family, member B1 ALDH1B1 NM_000692 alkB, alkylation repair homolog 6 (E. coli) ALKBH6 NM_032878 anaphase promoting complex subunit 1 ANAPC1 NM_022662 anaphase promoting complex subunit 5 ANAPC5 NM_016237 ankyrin repeat, family A (RFXANK-like), 2 ANKRA2 NM_023039 ADP-ribosylation factor GTPase activating protein 3 ARFGAP3 NM_014570 Rho GTPase activating protein 9 ARHGAP9 NM_032496 ankyrin repeat and SOCS box-containing 7 ASB7 NM_198243 ATPase, H+ transporting, lysosomal 9 kDa, VO subunit e1 ATP6V0E1 NM_003945 bridging integrator 2 BIN2 NM_016293 bleomycin hydrolase BLMH NM_000386 brix domain containing 1/ribosome production factor 2 BXDC1/RPF2 ENST00000368864 homolog chromosome 11 open reading frame 67 C11orf67 NM_024684 chromosome 12 open reading frame 57 C12orf57 NM_138425 chromosome 15 open reading frame 24 C15orf24 NM_020154 chromosome 19 open reading frame 54 C19orf54 NM_198476 chromosome 1 open reading frame 174 C1orf174 NM_207356 chromosome 1 open reading frame 183 C1orf183 NM_019099 chromosome 20 open reading frame 111 C20orf111 NM_016470 chromosome 20 open reading frame 24 C20orf24 BC004446 chromosome 3 open reading frame 62/ubiquitin specific C3orf62/USP4 BC023586 peptidase 4 (proto-oncogene) chromosome 9 open reading frame 89 C9orf89 BC038856 coactivator-associated arginine methyltransferase 1 CARM1 NM_199141 CD33 molecule CD33 NM_001772 CD86 molecule CD86 NM_175862 CD93 molecule CD93 NM_012072 cytochrome c oxidase subunit VIIa polypeptide 2 like COX7A2L NM_004718 corticotropin releasing hormone binding protein CRHBP NM_001882 chondroitin sulfate N-acetylgalactosaminyltransferase 2 CSGALNACT2 NM_018590 Cytochrome P450 51A1 CYP51A1 NM_000786.2 DDRGK domain containing 1 DDRGK1 NM_023935 DEAD (Asp-Glu-Ala-Asp) box polypeptide 21 DDX21 NM_004728 24-dehydrocholesterol reductase DHCR24 NM_014762 7-dehydrocholesterol reductase DHCR7 NM_001360 DEAH (Asp-Glu-Ala-His) box polypeptide 33 DHX33 NM_020162 DnaJ (Hsp40) homolog, subfamily B, member 4 DNAJB4 NM_007034 DnaJ (Hsp40) homolog, subfamily B, member 9 DNAJB9 NM_012328 DnaJ (Hsp40) homolog, subfamily C, member 5 DNAJC5 NM_025219 DnaJ (Hsp40) homolog, subfamily C, member 9 DNAJC9 NM_015190 D-tyrosyl-tRNA deacylase 1 homolog DTD1 NM_080820 ER degradation enhancer, mannosidase alpha-like 2 EDEM2 NM_018217 ecotropic viral integration site 2B EVI2B NM_006495 family with sequence similarity 36, member A FAM36A NM_198076 family with sequence similarity 86, member A FAM86A NM_201400 Fas (TNF receptor superfamily, member 6) FAS NM_000043 MGC44478 FDPSL2A NR_003262 ferredoxin reductase FDXR NM_024417 forkhead box O4 FOXO4 NM_005938 FTHL10-001, Transcribed processed pseudogene FTHL10-001 NR_002200 fucosidase, alpha-L-2, plasma FUCA2 NM_032020 growth arrest-specific 2 like 3 GAS2L3 NM_174942 ganglioside induced differentiation associated protein 2 GDAP2 NM_017686 growth differentiation factor 11 GDF11 NM_005811 glutaredoxin (thioltransferase) GLRX NM_002064 guanine nucleotide binding protein-like 3 GNL3L NM_019067 glucosamine-phosphate N-acetyltransferase 1 GNPNAT1 NM_198066 glutathione reductase GSR NM_000637 general transcription factor IIIC, polypeptide 2 beta GTF3C2 NM_001521 HMG-box transcription factor 1 HBP1 NM_012257 histone cluster 1, H1c HIST1H1C NM_005319 histone cluster 1, H2ae HIST1H2AE NM_021052 histone cluster 1, H2be HIST1H2BE NM_003523 histone cluster 1, H3g HIST1H3G NM_003534 histone cluster 1, H3j HIST1H3J NM_003535 histone cluster 1, H4a HIST1H4A NM_003538 histone clusters 2, H2aa3/2, H2aa4 HIST2H2AA3/4 NM_003516 high-mobility group box 3 HMGB3 NM_005342 3-hydroxy-3-methylglutaryl-Coenzyme A reductase HMGCR NM_000859 3-hydroxy-3-methylglutaryl-Coenzyme A synthase 1 HMGCS1 NM_001098272 heme oxygenase (decycling) 1 HMOX1 NM_002133 heterogeneous nuclear ribonucleoprotein L HNRNPL NM_001533 insulin receptor substrate 2 IRS2 NM_003749 iron-sulfur cluster scaffold homolog ISCU NM_014301 interferon stimulated exonuclease gene 20 kDa-like 2 ISG20L2 NM_030980 potassium voltage-gated channel, Isk-related family, KCNE3 NM_005472 member 3 hypothetical protein LOC100132855/ATPase, H+ LOC100132855/ NM_004691 transporting, lysosomal 38 kDa, VO subunit d1 ATP6V0D1 hCG1651476 LOC284417 NM_001085488 lysophosphatidic acid receptor 1 LPAR1 NM_057159 leucine-rich PPR-motif containing LRPPRC NM_133259 lymphocyte antigen 96 LY96 NM_015364 mitogen-activated protein kinase kinase 1 MAP2K1 NM_002755 mitogen-activated protein kinase 13 MAPK13 NM_002754 methyltransferase like 2A METTL2A NM_181725 microsomal glutathione S-transferase 3 MGST3 NM_004528 mitochondrial ribosomal protein L30 MRPL30 NM_145212 mitochondrial ribosomal protein L4 MRPL4 NM_146388 mitochondrial ribosomal protein S17 MRPS17 NM_015969 5-methyltetrahydrofolate-homocysteine methyltransferase MTR NM_000254 MYB binding protein (P160) 1a MYBBP1A NM_014520 neighbor of BRCA1 gene 1 NBR1 NM_031858 nuclear import 7 homolog NIP7 NM_016101 NLR family, pyrin domain containing 12 NLRP12 NM_144687 nucleolar protein family 6 (RNA-associated) NOL6 NM_022917 NAD(P)H dehydrogenase, quinone 1 NQO1 NM_000903 nuclear receptor binding protein 1 NRBP1 NM_013392 nucleotide binding protein-like NUBPL NM_025152 nudix (nucleoside diphosphate linked moiety X)-type motif 14 NUDT14 NM_177533 nuclear fragile X mental retardation protein interacting NUFIP1 NM_012345 protein 1 nucleoporin 153 kDa NUP153 NM_005124 olfactory receptor, family 5, subfamily B, member 21 OR5B21 NM_001005218 PAS domain containing serine/threonine kinase PASK NM_015148 PRKC, apoptosis, WT1, regulator PAWR NM_002583 PDGFA associated protein 1 PDAP1 NM_014891 phosphodiesterase 1B, calmodulin-dependent PDE1B NM_000924 phosphoribosylformylglycinamidine synthase PFAS NM_012393 pleckstrin homology-like domain, family A, member 3 PHLDA3 NM_012396 phosphoinositide-3-kinase adaptor protein 1 PIK3AP1 NM_152309 PTEN induced putative kinase 1 PINK1 NM_032409 phosphomannomutase 2 PMM2 NM_000303 partner of NOB1 homolog PNO1 NM_020143 polymerase (RNA) II (DNA directed) polypeptide E, 25 kDa POLR2E NM_002695 polymerase (RNA) III (DNA directed) polypeptide E (80 kD) POLR3E NM_018119 protein phosphatase 1D magnesium-dependent, delta isoform PPM1D BC042418 phosphatidylinositol-3,4,5-trisphosphate-dependent Rac PREX1 NM_020820 exchange factor 1 proline-serine-threonine phosphatase interacting protein 1 PSTPIP1 NM_003978 RAB33B, member RAS oncogene family RAB33B NM_031296 renin binding protein RENBP NM_002910 replication factor C (activator 1) 2, 40 kDa RFC2 NM_181471 ribonuclease H1 RNASEH1 NM_002936 ring finger protein 146 RNF146 NM_030963 ring finger protein 24 RNF24 NM_007219 ring finger protein 26 RNF26 NM_032015 ribosomal protein SA/small nucleolar RNA, H/ACA box 62 RPSA/SNORA62 NM_014570 RNA pseudouridylate synthase domain containing 2 RPUSD2 NM_152260 ribosomal RNA processing 12 homolog RRP12 NM_015179 retinoid X receptor, alpha RXRA NM_002957 scavenger receptor class B, member 2 SCARB2 NM_005506 SERPINE1 mRNA binding protein 1 SERBP1 NM_001018067 splicing factor proline/glutamine-rich SFPQ NM_005066 solute carrier family 35, member B3 SLC35B3 BX538271 solute carrier family 37, member 4 SLC37A4 NM_001467 solute carrier family 5, member 6 SLC5A6 NM_021095 sphingomyelin phosphodiesterase 4, neutral membrane SMPD4 NM_017751 small nucleolar(sn)RNA host gene 1, non-coding/snRNA SNHG1/SNORD26 NM_002032 C/D box 26 small nucleolar RNA host gene 12 (non-coding) SNHG12 NM_207356 small nucleolar RNA, H/ACA box 45 SNORA45 NR_002977 sorting nexin family member 27 SNX27 NM_030918 sterol regulatory element binding transcription factor 2 SREBF2 NM_004599 ST3 beta-galactoside alpha-2,3-sialyltransferase 6 ST3GAL6 NM_006100 serine/threonine kinase 17b STK17B NM_004226 tubulin folding cofactor E-like TBCEL NM_152715 tectonic family member 2 TCTN2 NM_024809 toll-like receptor 6 TLR6 NM_006068 toll-like receptor 9/twinfilin homolog 2 TLR9/TWF2 NM_007284 transmembrane protein 55A TMEM55A NM_018710 transmembrane protein 59 TMEM59 NM_004872 transmembrane protein 77 TMEM77 BC091509 transmembrane protein 97 TMEM97 NM_014573 translocase of outer mitochondrial membrane 34 TOMM34 NM_006809 translocase of outer mitochondrial membrane 40 homolog TOMM40 BC001779 translocase of outer mitochondrial membrane 5 homolog/ TOMM5/FBXO10 NM_012166 F-box protein 10 tumor protein p53 inducible protein 3 TP53I3 NM_004881 tumor protein p53 inducible nuclear protein 1 TP53INP1 NM_033285 thioredoxin reductase 1 TXNRD1 NM_003330 ubiquitin-fold modifier conjugating enzyme 1 UFC1 NM_016406 ubiquitin specific peptidase 10 USP10 NM_005153 vesicle-associated membrane protein 3 (cellubrevin) VAMP3 NM_004781 valyl-tRNA synthetase VARS NM_006295 vacuolar protein sorting 37 homolog A VPS37A NM_152415 zinc finger protein 211 ZNF211 NM_006385 zinc finger protein 223 ZNF223 NM_013361 zinc finger protein 561 ZNF561 NM_152289 zinc finger protein 79 ZNF79 NM_007135 The following gene titles are based on HUGO gene nomenclature DDX19A DDX19A NM_018332.3 HIST2H2AA3 HIST2H2AA3 BC001629.1 HIST2H2AA4_x2 HIST2H2BF HIST2H2BF NM_001024599.2 KIAA0226L KIAA0226L NM_025113.3 LINC00987 LOC100499405 NR_036466.1 RP11-118B22.3 RP11-118B22.2 MSANTD2 MSANTD2 NM_024631.2 OTTHUMT00000400136 RP11-267J23.4 OTTHUMT00000400136.1 SRP72P2 SRP72P2 ENST00000538672.1 TWF2 TWF2 NM_007284.3 VARS VARS_x1 BC012808.2 YBX1P1 YBX1P1 ENST00000445822.1 U4 7966223 ENST00000363404.1 8133549 8133549 GPS_8133549b. 1 8140170 8140170 GPS_8140170.1 8145244 8145244 GPS_8145244b.1

Table A legend. Genes were annotated, using the NetAffx database from Affymetrix (www.affymetrix.com, Santa Clara USA). When found, the Unigene (www.ncbi.nlm.nih.gov/UniGene/) ID was chosen as the gene identifier. In the cases where no Unigene ID was reported the best alternative ID was given.

Results

Phenotype Analysis

To investigate any indications of phenotypic differences in SenzaCell compared to MUTZ-3, the expression of a panel of surface markers, Table I, were measured in both cell lines. The selected surface markers are associated with dendritic cells, myeloid cells, hematopoietic cells or cell activation. The populations of positive cells were calculated and the population sizes were compared using t-tests. Out of the 26 surface markers that were measured, 12 were significantly differentially expressed between the cell lines when considering a false discovery rate <0.05 significant, see rows shaded in Table I. The differentially expressed surface markers were CD1a, CD11b, CD14, CD34, CD15, CD32, CD40, CD54, HLA-DR, CD64, Toll like receptor (TLR) 4 and TLR-2. The expression of CD54 is however nearly identical in the cell lines and close to the highest obtainable value, and should be interpreted with caution. The expression was also considered as binary, + if the surface marker was detected and − otherwise. The binary expression of the surface markers were very similar between the cell lines. The only surface markers that showed a different binary expression was CD80 and possibly OX40L. A hierarchical clustering algorithm was performed to further compare the cell lines, see FIG. 1. The clustering groups MUTZ-3 and SenzaCell in 2 separate clusters. A bootstrap algorithm with resampling was performed to evaluate the stability of the identified clusters. The mean Jaccard coefficients for SenzaCell and MUTZ-3 were determined to be 0.85 and 0.89 respectively, which is indicative of stable clusters.

TABLE I The expression of a panel of biomarkers were measured for both SenzaCell and MUTZ-3. The expression values are given as the mean percent positive cells ± the standard deviation. T-tests were performed to compare the means of the expression values. The p-values were corrected using Benjamini Hochberg correction. Rows shaded in green represent markers with a corrected p-value below 0.05. The calculations are based on 6 measurements in biological triplicates. A binary representation of the surface expression is represented as + if expressed or − if not expressed. The expression of the surface marker's corresponding genes are given, showing the cell line that exhibits the highest expression if significanlty different. HLA-DR is not reported in the RNA expression column due to its complex genetics: BINARY BINARY SURFACE SENZACELL MEAN MUTZ-3 MEAN EXPRESSION EXPRESSION RNA MARKER EXPRESSION (%) EXPRESSION (%) P-VALUE SENZACELL MUTZ3 EXPRESSION CD1A 23.4 ±4.8 64.7 ±1.6 1.25E−05 + + M CD4 25.0 ±12.1 11.8 ±4.7 3.01E−01 + + CD5 0.3 ±0.2 0.5 ±0.3 3.21E−01 − − CD11B 25.6 ±7.3 54.4 ±7.0 3.52E−04 + + M CD14 23.5 ±3.6 55.3 ±11.9 2.13E−03 + + M CD34 54.5 ±11.6 32.5 ±3.7 1.48E−02 + + S CD13 99.5 ±0.2 99.1 ±0.7 3.01E−01 + + M CD15 23.1 ±10.4 49.1 ±17.2 2.85E−02 + + M CD19 0.2 ±0.1 0.3 ±0.2 3.83E−01 − − CD32 6.8 ±2.2 26.9 ±2.2 5.09E−07 + + S CD40 5.2 ±2.0 21.5 ±9.4 1.81E−02 + + S CD54 99.99 ±0.01 99.96 ±0.02 1.81E−02 + + S CD86 10.7 ±2.0 14.4 ±3.5 1.05E−01 + + CD80 0.5 ±0.5 3.2 ±2.2 5.32E−02 − + CD123 50.1 ±20.0 30.3 ±7.4 1.11E−01 + + HLA-DR 82.2 ±9.4 50.7 ±15.2 8.80E−03 + + − CD209 0.4 ±0.4 0.5 ±0.4 9.24E−01 − − BDCA-3 17.9 ±3.5 16.1 ±3.2 4.27E−01 + + BDCA-1 13.5 ±2.0 11.5 ±5.1 4.34E−01 + + S OX40L 0.6 ±0.3 6.1 ±10.0 3.01E−01 − −+ CD16 0.08 ±0.03 0.2 ±0.2 1.92E−01 − − CD64 13.9 ±1.6 47.6 ±8.1 7.26E−04 + + S TLR4 13.9 ±4.5 52.3 ±11.1 7.26E−04 + + S TLR2 12.5 ±3.3 40.0 ±16.6 2.25E−02 + + OX40 0.1 ±0.05 0.1 ±0.02 8.31E−01 − − S CD137 2.5 ±1.3 9.1 ±6.9 2.75E−01 + + S

Whole Genome Sequencing

Whole genome sequencing was performed to identify indicators of genetic differences between SenzaCell and MUTZ-3. Indicators could be represented by variants only discovered in either of the cell lines. The investigated variants consisted of single nucleotide polymorphisms (SNPs), insertions or deletions. The number of raw variants that were discovered in the cell lines was 5,080,918 and 5,073,307 in SenzaCell and MUTZ-3 respectively. The gVCF files were merged and genotyped and the variant quality scores in the outputted VCF file were recalibrated. Variants with low quality scores were filtered and removed from further analysis. The similarity between the cell line genomes and the reference genome was calculated to 99.86% for both cell lines, resulting in a variant frequency of 1 variant per ˜720 bp. Variants unique to either of the cell lines were identified by finding positions where one cell line had an identified variant and the other cell line were homozygous to the reference genome. Further filtering was performed to remove variants where the certainty of the homozygous calls was low, by filtering on the genotype quality scores. The obtained variant list consisted of 7,977 variants that could only be found in the SenzaCell and 5,672 variants unique to the MUTZ-3 cell line. Though the list of variants had been decreased significantly, further filtering was necessary to identify mutations that could have an impact on the cells. Variants were therefore filtered to remove low impact mutations. Mutations that were predicted to have a high or moderate impact in SenzaCell can be seen in Table 2 and the identified variants for MUTZ-3 can be seen in Table 3. 14 variants were discovered in SenzaCell that matched the described criteria and 28 were found in MUTZ-3. The predicted effects ranged from amino acid substitutions to more severe mutations such as gaining a new stop codons or changes in splice sites. The biological processes that the genes that were impacted by the variants could be mapped to were determined using PANTHER, see FIG. 2 and FIG. 3.

Finally, a similar filtering strategy was performed to determine the number of common variants that could be identified in the cell lines, which resulted in the identification of 4,298,116 variants.

TABLE 2 Unique variants that were only found in SenzaCell (S) which were predicted to have a high or moderate effect. Predicted effects were determined using snpEff. .Gene: identified gene to be affected by the variant, CHR: Chromosome where variant was called, POSITION: variant's position on the chromosome, IMPACT: predicted impact of variant, PREDICTED EFFECT: predicted impact by snpEff, X- GQ: Phred based quality score for genotype quality for respective cell line: Gene Chr Position Impact Predicted effect M-GQ S-GQ RP11- 1 245778159 High Splice acceptor variant, splice 33 99 522M21.2 region variant, intron variant and non-coding exon variant FIGN 2 164467322, Moderate Missense variant 21 75 164467330, 164467333 BOD1 5 173035291 Moderate Missense variant 75 75 KRTAP5-3 11 1628956 Moderate Disruptive inframe deletion 75 75 KIF18A 11 28106253 Moderate Missense variant 30 99 QSER1 11 32955122 Moderate Missense variant 33 99 DEPDC7 11 33049341 Moderate Missense variant 51 99 APIP 11 34916657 Moderate Missense variant and splice 48 99 region variant PDHX 11 34969112 Moderate Missense variant 32 99 PRB4 12 11461541 Moderate Conservative inframe deletion 52 91 SON 21 34927396 Moderate Disruptive inframe deletion 63 99 SLC25A14 X 129480633 High Frameshift variant 42 99

TABLE 3 Unique variants that were only found in MUTZ-3 (M) that were predicted to have a high or moderate effect. Predicted effects were determined using snpEff. .Gene: identified gene to be affected by the variant, CHR: Chromosome where variant was called, POSITION: variant's position on chromosome, IMPACT: predicted impact of variant, PREDICTED EFFECT: predicted impact by snpEff, X-GQ: Phred based quality score for genotype quality for respective cell line: Gene Chr Position Impact Predicted effect M-GQ S-GQ ZCCHC11 1 52902561 Moderate Missense variant 99 37 HAO2 1 119925549 Moderate Missense variant 99 99 AC079354.1 2 203054919 High Frameshift variant 99 73 ABCA12 2 215851269 Moderate Missense variant 99 99 CNTN6 3 1394079 Moderate Missense variant 99 61 FAM170A 5 118968488 Moderate Missense variant 99 99 SNAP91 6 84375184 Moderate Missense variant 99 99 MYB 6 135517061 High Frameshift variant 99 81 SOSTDC1 7 16502281 Moderate Missense variant 99 99 AOAH 7 36579964 Moderate Missense variant 99 99 GS1-259H13.2 7 99203012 High Splice acceptor variant, 99 93 splice region variant, intron variant and non-coding exon variant CEP41 7 130040006, Moderate Missense variant 99, 99 71, 87 130044465 LRGUK 7 133812130 Moderate Missense variant 99 53 TRBV10-2 7 142206520, Moderate Missense variant 99 99 142206551 CNTNAP2 7 147335933 High Frameshift variant 99 74 WISP1 8 134232964 Moderate Missense variant 99 99 DRD4 11 640098 High Frameshift variant 36 99 TNNT3 11 1956105 Moderate Missense variant 99 84 MS4A2 11 59857861 Moderate Missense variant 99 99 PVRL1 11 119549125 Moderate Missense variant and 85 99 splice region variant AP003062.1 11 134855495, High Frameshift variant 99, 99 55, 60 134855498 SLC10A2 13 103698597 High Stop gained 99 95 PLA2G4E 15 42302330 Moderate Conservative inframe 99 30 deletion SCAMP5 15 75310783 Moderate Missense variant 99 81 PES1 22 30977586 Moderate Missense variant 99 31

RNA-Seq Analysis

The transcriptomes of the cell lines were compared to assess the cell states during normal growth and identify any differences between them. An initial analysis of the data was performed by creating a PCA plot of the samples and performing a hierarchical clustering analysis, FIG. 4. The PCA plot indicated the presence of batch effects as the samples from experiment 3 exhibited deviating values in the 2^(nd) principal component compared to the samples from the first two experiments. The samples from experiment 3 also formed a separate cluster in the hierarchical clustering which further strengthens the observation that batch effects affected the data. The samples obtained from the first two experiments seemed more similar and samples from the same cell line formed separate groups and clusters. EdgeR and DESeq were used to search for differentially expressed transcripts between the cell lines, where the generalized linear models were designed to account for the observed batch effects. 3644 transcripts were identified as significantly differentially expressed (listed in Supplementary Table 1). The identified transcripts were mapped to molecular functions and biological processes using PANTHER (FIG. 3). The majority of the transcripts were mapped to the molecular functions catalytic activity and binding and the biological processes cellular- and metabolic processes. An overrepresentation test was then performed to investigate if any biological processes were significantly under- or overrepresented among the DE transcripts. 94 GO terms were identified as statistically under- or overrepresented with a Bonferroni corrected p-value below 0.05, see Supplementary Table 2. To gain further insight into the differences between the cell lines a topological pathway analysis was also performed. The pathway analysis discovered 19 activated and 2 inhibited signaling pathways in MUTZ-3 compared to SenzaCell, Table 4.

The regulation of the genes selected in the GPS are important for the identification and separation of sensitizers and non-sensitizers in the GARD assay. The genes in the GPS were therefore compared to the DE transcripts which revealed that 43 transcripts were found in both lists. This demonstrated that almost 22% of the genes in the GPS were differentially expressed between the cell lines.

A comparison between the results in the phenotype and the RNA-seq data was performed to investigate the analysis methods and possibly give more validity to the findings. The panel of biomarkers and their corresponding genes were compared in a concordance analysis. The comparison was performed as an evaluation of a classification task with the groups significantly higher, significantly lower or not different in the MUTZ-3 compared to SenzaCell. The analysis resulted in a Cohens Kappa value of 0.44, suggesting concordance between the two methods, see expression for each marker in Table 1. 8 of the 10 surface markers that showed an increased expression also showed an increased expression in the RNAseq analysis. CD54 shows an increased gene expression in MUTZ-3 which is opposed to the surface marker expression. The gene for TLR2 is not called as differentially expressed. 8 of the 14 surface markers that were not call significant did not have differentially expressed genes either. The gene expression levels for the remaining 6 markers were however found to be differentially expressed. CD34 was the only marker that was found to have significantly lower expression levels in the MUTZ-3 in both transcription levels and surface expression. HLA-DR was left out of this comparison due to its complex genetics.

TABLE 4 Significantly different signaling pathways from SPIA after p-value correction using the Bonferroni method. The global p-values calculated by SPIA considers both the number of genes affected in the pathway and the perturbation of the signaling pathway. KEGG Signaling Pathway ID pG_(FWER) Status Cytokine-cytokine receptor interaction 4060 4.97E−11 Activated Transcriptional misregulation in cancer 5202 5.08E−11 Activated NF-kappa B signaling pathway 4064 8.20E−09 Activated Osteoclast differentiation 4380 5.51E−08 Activated Rheumatoid arthritis 5323 3.49E−06 Activated Leishmaniasis 5140 3.86E−06 Activated Tuberculosis 5152 2.79E−05 Activated MAPK signaling pathway 4010 0.000138 Activated Lysosome 4142 0.000413 Activated Toll-like receptor signaling pathway 4620 0.000705 Activated Prostate cancer 5215 0.002444 Activated Chemokine signaling pathway 4062 0.002986 Activated Type I diabetes mellitus 4940 0.007456 Activated Toxoplasmosis 5145 0.015427 Inhibited Natural killer cell mediated cytotoxicity 4650 0.018134 Activated Legionellosis 5134 0.024336 Activated Graft-versus-host disease 5332 0.026753 Activated Salmonella infection 5132 0.029971 Activated Influenza A 5164 0.037206 Activated Allograft rejection 5330 0.037554 Activated B cell receptor signaling pathway 4662 0.044202 Inhibited

Functional Analysis

MUTZ-3 and SenzaCell's ability to distinguish skin sensitizers when analyzing the expression of the genes in the GARD prediction signature (GPS) after chemical exposure was assessed by using the cells in the well-established assay workflow. 2-hydroxyethylacrylate and DNCB were used to stimulate the cells and an unstimulated sample was used as negative control. RNA was quantified and the samples were classified using a SVM model trained on genetic profiles from SenzaCell. The chemicals were correctly classified as sensitizers and the unstimulated sample as non-sensitizer using both MUTZ-3 and SenzaCell, FIG. 6. Further on, the prediction pattern, where 2-hydroxyethylacrylate has a higher prediction value than DNCB, is similar for MUTZ-3 as to what is obtained with SenzaCell.

DISCUSSION

Allergic contact dermatitis is a condition with increasing prevalence that causes significant costs for society. Contact with skin sensitizers can trigger an immune response to attack the complexes that are formed between the chemical and biomolecules, resulting in an attack on healthy tissue (1). Assessment of a chemicals' ability to induce ACD is important to reduce the number of people that are affected by ACD. The gold standard for sensitization testing, the local lymph node assay (LLNA) (33), rely on animal testing and is being phased out by more ethical in vitro assays (6, 7, 34). The GARD assay is an in-vitro assay that distinguishes between sensitizers and non-sensitizers by analyzing the gene expression of the genes in the GARD prediction signature. The transcripts are isolated from a dendritic cell-like cell line that has been exposed to test chemicals. The assay relies on the innate decision making of the cell line to recognize sensitizers and adapt its gene expression, making it possible to quantify the changes and learn to recognize sensitizers (9). MUTZ-3 and SenzaCell are suitable cells for this task due their ability to resemble dendritic cells, which are important for recognizing antigens and orchestrate immune responses.

SenzaCell was compared to MUTZ-3 by characterizing their phenotype, genotype and assessing the cell line's ability to distinguish sensitizers from non-sensitizers when used in the assay. The expression levels of a panel of surface markers were determined for both cell lines. The results demonstrated that 12 out of 26 surface markers had a different expression levels in MUTZ-3 compared to SenzaCell. A hierarchical clustering algorithm with bootstrapping also showed the possibility to group the cell lines into different stable clusters, implying that the cell lines are more similar to themselves than the other cell line over the course of the experiments. The surface markers that had higher expression values in MUTZ-3 were CD1a, CD11b, CD14, CD15, CD32, CD40, CD64, TLR2 and TLR4 while CD34, CD54 and HLA-DR had lower expression values. MUTZ-3 cells can, based on CD14 and CD34 expression, be divided into three subpopulations; CD34⁺ CD14⁻, CD34⁻ CD14⁻ and CD34⁻ CD14⁺. Previous analysis of the populations revealed that the CD34⁺ CD14⁻ is the proliferating population which give rise to the other populations (35). Some of the differences between SenzaCell and MUTZ-3 could therefore possibly be explained by the differences between the subpopulations, e.g. the increased amount of CD14 ⁺ cells in MUTZ-3 could possibly explain the increased CD11b⁺ expression (35). However, considering the available data, the different levels in expression cannot be explained solely due to different sizes of the subpopulations. CD1a is expressed in both cell lines, which has preciously not been recorded in undifferentiated MUTZ-3 (8, 35, 36). The expression of CD1a could therefore indicate differentiation of the MUTZ-3 cells towards a more dendritic cell like phenotype. MUTZ-3 displayed a larger population of CD1a positive cells, which could indicate that it is more differentiated than SenzaCell. Evidence that further implies that MUTZ-3 could be more differentiated comes from the increased CD40 expression, which is a marker that increases in expression as cells differentiate towards a DC phenotype (37). Although both CD1a and CD40 are expressed in higher levels in MUTZ-3, the expression of other surface markers show evidence of the contrary. HLA-DR is another marker whose expression has been shown to moderately increase with differentiation which is more expressed in SenzaCell, making it difficult to draw any conclusions regarding unequal levels of differentiation between the cell lines (37). Further on, neither of the cell lines' morphology exhibits the characteristic dendrites that are formed as MUTZ-3 differentiates (data not shown). Considering the roles of the surface markers that are differentially expressed, many are related to myeloid cell differentiation, e.g. the FC-gamma receptors CD32 and CD64 (38), the pathogen recognition receptors (PRR) TLR2 and TLR4 (39-41) or the carbohydrate adhesion molecule CD15 (42). This could indicate that there is some form of differentiation that is responsible for the observed differences; however the nature of the differentiation process is difficult to determine using only the obtained expression values.

The whole genome sequencing was performed to compare the genomes of the cell lines and search for indications of genetic differences. The number of identified variants lie within the expected range as a typical person differs at 4.1 million to 5 million sites compared to the reference genome (43). Variants that were unique to either of the cell lines were identified and their predicted impacts were assessed. In total, 7,977 unique variants were discovered in the SenzaCell and 5,672 in MUTZ-3. Comparing the number of discovered unique variants to the number of common variants makes the observed differences seem small. However when filtering variants with low impact and assessing variants predicted to have a moderate or high impact, the situation was reversed. 14 variants were discovered in SenzaCell and 28 mutations in MUTZ-3. One of the reasons for these results could be due to the insensitivity of the method used to identify variants. Whole genome sequencing is a high throughput method which generates billions of reads. The process of transforming the reads into interpretable results is difficult and an ongoing challenge. However, if assuming that the discovered variants are unique to the cell lines and not the artifacts from detection, they could be the product of other biological processes. Genetic differences can be caused by selective pressure as the cell lines grow. If MUTZ-3 contains subpopulations with different variants in its genome, it is possible that some of them have been lost in SenzaCell. Genetic heterogeneity has previously been shown in cell lines (44). Another possibility is that MUTZ-3 has been expanded in parallel to SenzaCell, which could have generated the discovered variants. A parallel expansion of MUTZ-3 cell line could result in finding unique variants that are absent in the SenzaCell cells, but would require the mutations to be of high or moderate impact with higher frequency. A continued parallel expansion could possibly introduce additional differences between the cell lines. The biological processes that were mapped to the genes predicted to be impacted by the mutations are general terms and difficult to draw functional conclusions from. This is made even harder when considering the impact that a mutation has, e.g. the effect of a missense variant where an amino acid in the resulting protein is changed to another amino acid. However, studying the gene lists reveals interesting variants. The high impact variant found in MUTZ-3 in the MYB gene could be a relevant finding. The MYB is an identified oncogene that normally has important functions in the regulation of stem- and progenitor cells (45). Another interesting observation is the mutation in the WISP1 gene, also in the MUTZ-3. WISP1 functions in the WNT signaling pathways which has important roles in mediating cell-cell interactions and stem cell regulation and control (46-48). Both of these mutations could be important for the function and regulation of the cell lines, and the lack of these variants in SenzaCell could have a functional impact.

Analysis of the cell transcriptomes were performed by quantification of transcription levels using RNA-seq during ordinary cultivation. A comparison of the expression levels revealed that 3644 transcripts were differentially expressed, which is close to 10% of all the transcripts that were analyzed after removing zero count transcripts. The high number of differentially expressed genes suggests that large differences between the cell lines can be observed at molecular level. An overrepresentation test and a topological pathway analysis were performed to get a better understanding of the potential impacts that the identified genes could have on the cells. 94 biological process GO terms were identified as over- or underrepresented amongst the identified transcripts. Due to the comparative analysis of identifying differences between the cell lines, overrepresented terms are of the greatest importance. Underrepresented terms can be interesting in other types of analyses, e.g. to identify key biological processes necessary for cell function. However, most of the identified GO terms were overrepresented. To briefly mention some of the GO terms, myeloid leukocyte activation and leukocyte chemotaxis were identified as the biological processes with largest fold change between the expected and the observed number of transcripts. Both of these terms indicate response to external stimuli (49). Positive regulation of MAP kinase activity was also identified with many related GO terms. The MAP kinases are involved in signaling pathways that control important cellular processes such as cell differentiation, cell proliferation and cell death (50). Different inflammatory responses and immune processes were also identified as overrepresented, which could be of importance due to the functional role of SenzaCell in the GARD assay. Continuing the analysis of the RNA-seq data, a pathway analysis was performed to gain further knowledge about the differences between the cell lines. The pathway analysis discovered 19 signaling pathways that were significantly activated and 2 that were inhibited in the MUTZ-3 cells compared to SenzaCell. MAP kinase signaling pathway was identified as activated in MUTZ-3. MAP kinase activity was also identified as an overrepresented biological process, giving additional evidence of changes in cellular processes between the cell lines. NF-kappa B signaling is another interesting pathway that was discovered as activated, which is intimately linked to inflammatory responses (51). These observations together with the activated toll-like receptor signaling could be the result of an inflammatory response.

The functional analysis showed that MUTZ-3 was able to produce predictions similar to what is achieved when using SenzaCell in the assay. The sensitizers DNCB and 2-hydroxyethylacrylate were correctly predicted as sensitizers by assessing the transcriptional levels of the genes in the GPS. The predicted decision values also showed a similar pattern between the two cell lines. The ability to separate the chemicals do however not directly give any measure of similarity. It is possible that the cells react similar to stimuli and that the GPS captures these changes well.

To summarize the comparisons, we have completed a phenotypic analysis which revealed that 12 out of 26 surface markers were differentially expressed between MUTZ-3 and SenzaCell. Cluster analysis on the expression values forms two separate clusters which separates the cell lines. Whole genome sequencing identified more unique variants in the SenzaCell cell line when assessing all the discovered variants. When filtering out low impact variants, the MUTZ-3 cell lines contained 28 variants compared to 14 in the SenzaCell cell line. Some of the identified variants could have important impacts in the functions of the cells. The RNA-seq analysis found 3644 transcripts that were differentially expressed. An overrepresentation test and a pathway analysis revealed that many biological processes and signaling pathways were differentially activated. Finally, MUTZ-3 and SenzaCell have been used in the GARD assay to evaluate their ability to recognize sensitizers and produce predictions. The classifications of the samples resulted in correct predictions for all the chemicals, indicating that both cell lines could be used in the assays, despite observed differences.

In conclusion, we have identified numerous differences between SenzaCell and MUTZ-3 in phenotypic and genotypic analyses. Collectively the differences indicate that SenzaCell has unique expression of surface molecules and cellular functions, yet both cell lines can be used in the GARD assays.

SUPPLEMENTARY TABLE 1 List of the identified differentially expressed transcripts after DE analysis using DESeq2 and edgeR- ENSEMBL Symbol Log₂ Fold Change False discovery rate ENSG00000102962 CCL22 4.123123  2.62E−192 ENSG00000211899 −3.45692  2.01E−109 ENSG00000115008 IL1A 2.520256 6.72E−93 ENSG00000197561 ELANE 2.709104 6.32E−90 ENSG00000115009 CCL20 3.089019 5.82E−86 ENSG00000172260 NEGR1 −3.31573 2.29E−85 ENSG00000171617 ENC1 −2.0878 1.39E−82 ENSG00000184368 MAP7D2 2.668051 9.27E−80 ENSG00000163220 S100A9 1.872061 3.74E−75 ENSG00000125538 IL1B 2.138323 9.85E−72 ENSG00000073910 FRY 2.825691 3.33E−71 ENSG00000211898 −3.9313 3.39E−71 ENSG00000092067 CEBPE 2.667064 2.19E−67 ENSG00000169385 RNASE2 2.243835 1.89E−64 ENSG00000136689 IL1RN 1.708561 2.52E−64 ENSG00000198521 ZNF43 −3.2071 5.19E−64 ENSG00000104219 ZDHHC2 −2.75589 1.77E−61 ENSG00000106789 CORO2A 2.099002 3.22E−59 ENSG00000128567 PODXL −2.66184 1.50E−57 ENSG00000164070 HSPA4L 2.663608 1.50E−57 ENSG00000166025 AMOTL1 3.916451 3.68E−56 ENSG00000121966 CXCR4 2.276018 4.60E−56 ENSG00000165092 ALDH1A1 −3.09609 1.07E−55 ENSG00000143546 S100A8 1.752797 3.17E−55 ENSG00000214212 C19orf38 2.157473 7.43E−55 ENSG00000170017 ALCAM 1.745714 1.20E−53 ENSG00000196415 PRTN3 2.031909 3.79E−53 ENSG00000119042 SATB2 3.086264 4.84E−53 ENSG00000067113 PLPP1 2.613582 7.64E−51 ENSG00000166446 CDYL2 −2.58598 5.15E−50 ENSG00000166532 RIMKLB −2.07617 6.73E−50 ENSG00000128641 MYO1B −2.13719 5.83E−49 ENSG00000173200 PARP15 −2.94694 1.17E−48 ENSG00000157570 TSPAN18 −2.74536 2.76E−48 ENSG00000103528 SYT17 −3.23566 7.68E−48 ENSG00000143110 C1orf162 1.822263 9.61E−48 ENSG00000105205 CLC 2.036686 9.68E−48 ENSG00000161905 ALOX15 1.912847 6.20E−46 ENSG00000103942 HOMER2 −2.06151 1.38E−45 ENSG00000242550 SERPINB10 2.438655 7.00E−45 ENSG00000169896 ITGAM 1.535044 5.26E−44 ENSG00000111344 RASAL1 2.27749 8.73E−44 ENSG00000109099 PMP22 2.696206 9.04E−44 ENSG00000112394 SLC16A10 2.717125 2.64E−43 ENSG00000107968 MAP3K8 1.697925 3.41E−42 ENSG00000166920 C15orf48 3.173252 6.56E−42 ENSG00000166147 FBN1 2.478197 9.50E−42 ENSG00000100473 COCH −2.99481 1.13E−41 ENSG00000232810 TNF 2.364805 2.98E−41 ENSG00000145246 ATP10D −1.80444 8.23E−41 ENSG00000135052 GOLM1 2.300466 1.26E−40 ENSG00000139880 CDH24 2.012996 3.76E−40 ENSG00000129824 RPS4Y1 −4.40067 4.46E−40 ENSG00000118503 TNFAIP3 1.691312 4.74E−40 ENSG00000115112 TFCP2L1 2.219946 1.56E−39 ENSG00000172232 AZU1 1.369037 5.37E−38 ENSG00000117090 SLAMF1 2.39219 8.32E−38 ENSG00000138623 SEMA7A 1.562484 1.22E−37 ENSG00000153113 CAST −1.88228 3.84E−37 ENSG00000101425 BPI 1.587417 4.05E−37 ENSG00000112303 VNN2 −2.39174 3.13E−36 ENSG00000106178 CCL24 2.48614 5.60E−36 ENSG00000102471 NDFIP2 2.708166 2.19E−35 ENSG00000163739 CXCL1 1.779606 3.45E−35 ENSG00000144792 ZNF660 −3.52959 8.16E−35 ENSG00000197043 ANXA6 −2.27294 1.11E−34 ENSG00000242308 −3.05075 1.28E−34 ENSG00000169397 RNASE3 1.89974 2.50E−34 ENSG00000005486 RHBDD2 1.319517 5.25E−34 ENSG00000158517 NCF1 1.733696 1.56E−33 ENSG00000205542 TMSB4X 1.292791 1.84E−33 ENSG00000169981 ZNF35 −2.49419 2.61E−33 ENSG00000137642 SORL1 −2.44646 4.35E−33 ENSG00000113916 BCL6 2.122035 6.90E−33 ENSG00000100985 MMP9 2.993912 1.02E−32 ENSG00000091972 CD200 −2.18297 2.95E−32 ENSG00000115339 GALNT3 1.941517 8.29E−32 ENSG00000049449 RCN1 −1.43462 1.65E−31 ENSG00000060749 QSER1 −1.43403 2.80E−31 ENSG00000205269 TMEM170B 1.735782 5.02E−31 ENSG00000167281 RBFOX3 3.300351 5.48E−31 ENSG00000171223 JUNB 1.555901 7.89E−31 ENSG00000255587 RAB44 1.504611 1.19E−30 ENSG00000154262 ABCA6 −2.16223 1.44E−30 ENSG00000130529 TRPM4 1.643649 1.96E−30 ENSG00000100300 TSPO 1.589284 5.09E−30 ENSG00000165682 CLEC1B −1.96051 8.67E−30 ENSG00000226777 KIAA0125 −1.34688 1.60E−29 ENSG00000158050 DUSP2 1.488983 1.79E−29 ENSG00000168546 GFRA2 2.990533 1.79E−29 ENSG00000182378 PLCXD1 −1.27974 2.05E−29 ENSG00000225485 −1.69536 2.40E−29 ENSG00000196189 SEMA4A 1.61718 4.00E−29 ENSG00000124788 ATXN1 2.333093 6.14E−29 ENSG00000091622 PITPNM3 1.703609 8.93E−29 ENSG00000163993 S100P 1.703326 9.59E−29 ENSG00000165178 NCF1C 1.627538 1.05E−28 ENSG00000112299 VNN1 −1.72818 1.46E−28 ENSG00000168329 CX3CR1 −1.66555 3.57E−28 ENSG00000012779 ALOX5 1.865681 3.86E−28 ENSG00000163563 MNDA 1.309734 4.34E−28 ENSG00000023445 BIRC3 2.258108 6.71E−28 ENSG00000111729 CLEC4A 2.69362 6.92E−28 ENSG00000154229 PRKCA 1.569989 6.92E−28 ENSG00000157703 SVOPL −1.59437 1.26E−27 ENSG00000197937 ZNF347 −2.85425 1.43E−27 ENSG00000134531 EMP1 −1.82285 3.90E−27 ENSG00000175471 MCTP1 1.291777 4.38E−27 ENSG00000184588 PDE4B 1.693027 1.08E−26 ENSG00000184371 CSF1 2.042032 1.23E−26 ENSG00000177169 ULK1 1.331273 1.26E−26 ENSG00000188725 SMIM15 −1.35353 2.00E−26 ENSG00000157110 RBPMS −1.48798 2.06E−26 ENSG00000120875 DUSP4 1.460099 2.11E−26 ENSG00000163956 LRPAP1 1.224615 2.25E−26 ENSG00000169442 CD52 1.392453 3.73E−26 ENSG00000164929 BAALC −2.22524 6.26E−26 ENSG00000064989 CALCRL −1.19146 1.68E−25 ENSG00000137331 IER3 1.64983 1.71E−25 ENSG00000138185 ENTPD1 1.46728 1.77E−25 ENSG00000250722 SEPPI −2.86532 1.99E−25 ENSG00000110324 IL10RA 1.315974 4.22E−25 ENSG00000131355 ADGRE3 1.637766 4.49E−25 ENSG00000138449 SLC40A1 −1.87137 4.52E−25 ENSG00000131669 NINJ1 1.479819 5.29E−25 ENSG00000138772 ANXA3 1.327704 5.48E−25 ENSG00000169429 CXCL8 1.284099 7.05E−25 ENSG00000134463 ECHDC3 −3.0198 9.60E−25 ENSG00000070018 LRP6 −1.67722 1.05E−24 ENSG00000186431 FCAR 1.604409 1.51E−24 ENSG00000138722 MMRN1 −2.28656 1.69E−24 ENSG00000159496 RGL4 1.521802 2.24E−24 ENSG00000198736 MSRB1 1.25494 3.07E−24 ENSG00000174059 CD34 −1.50709 3.16E−24 ENSG00000109576 AADAT −1.75206 3.39E−24 ENSG00000256771 ZNF253 −1.71224 5.17E−24 ENSG00000058091 CDK14 1.936302 5.89E−24 ENSG00000148468 FAM171A1 −2.63414 8.70E−24 ENSG00000145335 SNCA −1.54258 1.19E−23 ENSG00000182557 SPNS3 1.995036 1.44E−23 ENSG00000107165 TYRP1 −2.01223 1.81E−23 ENSG00000146070 PLA2G7 2.906727 1.86E−23 ENSG00000149100 EIF3M −1.02196 2.70E−23 ENSG00000159339 PADI4 1.407783 2.70E−23 ENSG00000108947 EFNB3 −1.62478 2.87E−23 ENSG00000135387 CAPRIN1 −1.0511 3.10E−23 ENSG00000168497 SDPR −1.89261 3.10E−23 ENSG00000117461 PIK3R3 1.286659 3.18E−23 ENSG00000214063 TSPAN4 1.437514 4.45E−23 ENSG00000113389 NPR3 −1.4573 6.93E−23 ENSG00000163736 PPBP −1.84886 1.12E−22 ENSG00000198848 CES1 1.867213 1.13E−22 ENSG00000127824 TUBA4A 1.224405 1.25E−22 ENSG00000160161 CILP2 2.302167 1.80E−22 ENSG00000121691 CAT −1.09421 3.32E−22 ENSG00000073737 DHRS9 1.423372 3.37E−22 ENSG00000122694 GLIPR2 1.130655 4.83E−22 ENSG00000113273 ARSB 1.102375 1.04E−21 ENSG00000140379 BCL2A1 1.082409 1.08E−21 ENSG00000085265 FCN1 2.075745 1.21E−21 ENSG00000039560 RAI14 −1.31817 1.57E−21 ENSG00000060982 BCAT1 −1.21679 1.78E−21 ENSG00000135372 NAT10 −1.08879 2.00E−21 ENSG00000166401 SERPINB8 1.362048 2.43E−21 ENSG00000178538 CA8 1.650778 2.48E−21 ENSG00000055118 KCNH2 2.110973 3.11E−21 ENSG00000144802 NFKBIZ 1.740977 3.63E−21 ENSG00000136315 1.612605 5.66E−21 ENSG00000087245 MMP2 −1.50687 6.10E−21 ENSG00000184307 ZDHHC23 −1.47084 9.60E−21 ENSG00000112297 AIM1 2.169093 1.34E−20 ENSG00000152932 RAB3C 1.95027 1.66E−20 ENSG00000134489 HRH4 2.434787 1.88E−20 ENSG00000110422 HIPK3 −1.30744 2.20E−20 ENSG00000173391 OLR1 1.664069 2.24E−20 ENSG00000143167 GPA33 −1.32673 2.57E−20 ENSG00000100906 NFKBIA 1.219965 2.85E−20 ENSG00000170873 MTSS1 −1.89491 3.60E−20 ENSG00000204257 HLA-DMA −1.45249 6.59E−20 ENSG00000120256 LRP11 −2.69974 7.62E−20 ENSG00000100448 CTSG 1.162552 8.84E−20 ENSG00000115604 IL18R1 1.366065 9.52E−20 ENSG00000159388 BTG2 1.253231 1.09E−19 ENSG00000101307 SIRPB1 1.194443 1.28E−19 ENSG00000155926 SLA 1.187957 1.37E−19 ENSG00000026508 CD44 −0.9481 1.58E−19 ENSG00000178623 GPR35 1.546849 1.62E−19 ENSG00000168916 ZNF608 −1.53335 2.01E−19 ENSG00000121552 CSTA 1.29929 2.33E−19 ENSG00000182885 ADGRG3 1.022942 2.33E−19 ENSG00000197046 SIGLEC15 −1.36513 2.56E−19 ENSG00000139278 GLIPR1 −0.97146 2.76E−19 ENSG00000145819 ARHGAP26 1.146262 3.21E−19 ENSG00000046889 PREX2 −2.08654 3.33E−19 ENSG00000185275 1.691109 3.64E−19 ENSG00000126016 AMOT −2.94732 3.96E−19 ENSG00000115607 IL18RAP 1.396531 4.53E−19 ENSG00000162433 AK4 1.447695 5.26E−19 ENSG00000000938 FGR 1.161581 5.70E−19 ENSG00000121310 ECHDC2 −3.05665 6.15E−19 ENSG00000164100 NDST3 −1.31812 6.83E−19 ENSG00000182010 RTKN2 1.961911 8.71E−19 ENSG00000088305 DNMT3B −1.15917 9.19E−19 ENSG00000005381 MPO 1.246629 1.28E−18 ENSG00000076662 ICAM3 0.961891 1.59E−18 ENSG00000100097 LGALS1 1.095567 1.62E−18 ENSG00000163874 ZC3H12A 1.38201 2.14E−18 ENSG00000197928 ZNF677 −2.56131 2.14E−18 ENSG00000041353 RAB27B −1.0001 2.15E−18 ENSG00000135363 LMO2 −1.21791 2.20E−18 ENSG00000260833 −2.2377 2.83E−18 ENSG00000099860 GADD45B 1.186935 3.65E−18 ENSG00000127948 POR 1.00795 3.87E−18 ENSG00000163421 PROK2 2.364393 4.43E−18 ENSG00000106780 MEGF9 1.215229 4.65E−18 ENSG00000171798 KNDC1 1.40671 9.13E−18 ENSG00000123358 NR4A1 1.314283 9.43E−18 ENSG00000109929 SC5D −1.35376 9.90E−18 ENSG00000198589 LRBA −0.94474 1.12E−17 ENSG00000032444 PNPLA6 1.18285 1.30E−17 ENSG00000110047 EHD1 1.075667 1.55E−17 ENSG00000198355 PIM3 1.392739 1.75E−17 ENSG00000186074 CD300LF 1.218858 1.76E−17 ENSG00000122862 SRGN 0.945867 1.92E−17 ENSG00000171236 LRG1 1.099099 1.95E−17 ENSG00000184937 WT1 −1.20817 2.27E−17 ENSG00000125726 CD70 1.628283 2.48E−17 ENSG00000103037 SETD6 −2.98225 2.76E−17 ENSG00000139626 ITGB7 1.342262 3.27E−17 ENSG00000127920 GNG11 −1.29355 3.97E−17 ENSG00000167680 SEMA6B 1.153629 4.01E−17 ENSG00000049089 COL9A2 1.066559 4.79E−17 ENSG00000214455 −1.69767 4.83E−17 ENSG00000151012 SLC7A11 1.234853 5.65E−17 ENSG00000125430 HS3ST3B1 2.223313 6.96E−17 ENSG00000147443 DOK2 0.929769 7.04E−17 ENSG00000166326 TRIM44 −1.2524 8.10E−17 ENSG00000257743 MGAM2 1.734896 9.90E−17 ENSG00000174837 ADGRE1 1.013873 1.51E−16 ENSG00000167775 CD320 1.276526 1.72E−16 ENSG00000224940 PRRT4 2.13921 1.75E−16 ENSG00000089177 KIF16B −2.16086 1.77E−16 ENSG00000052126 PLEKHA5 −1.07754 2.18E−16 ENSG00000164512 ANKRD55 1.848602 2.47E−16 ENSG00000234493 RHOXF1P1 1.894632 2.53E−16 ENSG00000197249 SERPINA1 1.21653 2.77E−16 ENSG00000119686 FLVCR2 1.472465 3.20E−16 ENSG00000187049 TMEM216 −1.99899 3.26E−16 ENSG00000123095 BHLHE41 1.87136 3.37E−16 ENSG00000186652 PRG2 1.791934 3.49E−16 ENSG00000135838 NPL 1.723577 3.49E−16 ENSG00000130300 PLVAP −1.5462 3.49E−16 ENSG00000114439 BBX −1.15627 4.24E−16 ENSG00000140678 ITGAX 0.978735 4.28E−16 ENSG00000105088 OLFM2 2.097081 4.93E−16 ENSG00000197608 ZNF841 −1.24994 5.10E−16 ENSG00000169247 SH3TC2 −1.66832 5.66E−16 ENSG00000154188 ANGPT1 −1.11781 5.71E−16 ENSG00000148943 LIN7C −1.01614 6.30E−16 ENSG00000174944 P2RY14 1.140986 6.74E−16 ENSG00000081189 MEF2C −0.93383 7.36E−16 ENSG00000178053 MLF1 −2.94468 9.46E−16 ENSG00000234147 1.27994 1.17E−15 ENSG00000186827 TNFRSF4 1.587586 1.29E−15 ENSG00000157404 KIT −1.25057 1.50E−15 ENSG00000140030 GPR65 1.393958 1.55E−15 ENSG00000090674 MCOLN1 1.124467 1.73E−15 ENSG00000198842 DUSP27 −1.70887 1.73E−15 ENSG00000189190 ZNF600 −1.55929 1.87E−15 ENSG00000121053 EPX 2.719348 2.55E−15 ENSG00000179776 CDH5 −2.02669 2.55E−15 ENSG00000164111 ANXA5 0.842223 2.67E−15 ENSG00000171049 FPR2 1.494454 3.04E−15 ENSG00000086548 CEACAM6 1.90978 3.14E−15 ENSG00000133195 SLC39A11 0.894129 3.35E−15 ENSG00000023330 ALAS1 1.06202 4.43E−15 ENSG00000143515 ATP8B2 −0.99973 4.52E−15 ENSG00000160307 S100B 1.382946 4.55E−15 ENSG00000078081 LAMP3 2.86482 4.87E−15 ENSG00000100342 APOL1 −1.88248 6.18E−15 ENSG00000114013 CD86 1.651351 8.23E−15 ENSG00000100368 CSF2RB 0.887203 9.52E−15 ENSG00000102554 KLF5 1.480746 9.58E−15 ENSG00000101197 BIRC7 1.103902 1.02E−14 ENSG00000268758 ADGRE4P 1.138616 1.04E−14 ENSG00000184221 OLIG1 1.304906 1.36E−14 ENSG00000182487 NCF1B 1.474133 2.77E−14 ENSG00000223865 HLA-DPB1 −1.29641 3.21E−14 ENSG00000176788 BASP1 1.030939 3.24E−14 ENSG00000171159 C9orf16 1.038514 3.34E−14 ENSG00000174403 −1.82945 3.39E−14 ENSG00000115170 ACVR1 1.477417 3.41E−14 ENSG00000176340 COX8A 0.873816 3.48E−14 ENSG00000115286 NDUFS7 1.17336 3.48E−14 ENSG00000163565 IFI16 −0.97578 3.83E−14 ENSG00000145287 PLAC8 0.943553 3.96E−14 ENSG00000182986 ZNF320 −1.13022 4.03E−14 ENSG00000113140 SPARC −1.06506 4.06E−14 ENSG00000106976 DNM1 −1.06998 4.35E−14 ENSG00000197256 KANK2 −1.00487 4.87E−14 ENSG00000127955 GNAI1 −1.14996 5.06E−14 ENSG00000151693 ASAP2 −2.70513 5.17E−14 ENSG00000163661 PTX3 1.289043 7.81E−14 ENSG00000102265 TIMP1 0.889532 7.92E−14 ENSG00000132819 RBM38 1.100501 8.03E−14 ENSG00000146278 PNRC1 1.000352 8.07E−14 ENSG00000103811 CTSH 1.037916 8.60E−14 ENSG00000186529 CYP4F3 2.070624 8.79E−14 ENSG00000110435 PDHX −0.94796 9.87E−14 ENSG00000100292 HMOX1 1.156909 1.03E−13 ENSG00000108691 CCL2 1.285276 1.10E−13 ENSG00000124942 AHNAK −0.9651 1.11E−13 ENSG00000156535 CD109 −1.03038 1.15E−13 ENSG00000197632 SERPINB2 2.358363 1.43E−13 ENSG00000198825 INPP5F −0.9648 1.58E−13 ENSG00000107742 SPOCK2 −1.7638 1.70E−13 ENSG00000134369 NAV1 −1.51327 2.06E−13 ENSG00000105669 COPE 0.924119 2.18E−13 ENSG00000084731 KIF3C −1.14016 2.32E−13 ENSG00000110429 FBXO3 −1.00915 2.32E−13 ENSG00000223547 ZNF844 −1.52031 2.32E−13 ENSG00000182287 AP1S2 1.066371 2.34E−13 ENSG00000243244 STON1 1.217477 2.39E−13 ENSG00000027075 PRKCH −1.55444 2.52E−13 ENSG00000175104 TRAF6 −1.11852 2.68E−13 ENSG00000148926 ADM 1.195769 2.79E−13 ENSG00000135636 DYSF 1.811885 2.86E−13 ENSG00000110442 COMMD9 −0.85147 3.14E−13 ENSG00000134256 CD101 1.40696 3.24E−13 ENSG00000107796 ACTA2 −1.47665 3.50E−13 ENSG00000182578 CSF1R −1.21106 4.01E−13 ENSG00000131127 ZNF141 −1.49911 4.08E−13 ENSG00000109911 ELP4 −1.1467 4.32E−13 ENSG00000211829 1.341914 4.38E−13 ENSG00000109736 MFSD10 0.974795 4.78E−13 ENSG00000142583 SLC2A5 −0.8059 5.43E−13 ENSG00000104419 NDRG1 0.981239 5.81E−13 ENSG00000105290 APLP1 1.933475 6.69E−13 ENSG00000119943 PYROXD2 1.177352 7.42E−13 ENSG00000064687 ABCA7 1.182353 9.08E−13 ENSG00000117525 F3 1.377249 9.08E−13 ENSG00000135525 MAP7 −0.96695 9.45E−13 ENSG00000152219 ARL14EP −1.06339 1.00E−12 ENSG00000186710 CFAP73 2.287932 1.02E−12 ENSG00000203710 CR1 1.234258 1.02E−12 ENSG00000177700 POLR2L 0.922973 1.07E−12 ENSG00000140443 IGF1R 0.956037 1.14E−12 ENSG00000167613 LAIR1 0.838263 1.26E−12 ENSG00000133636 NTS −2.15828 1.54E−12 ENSG00000147408 CSGALNACT1 1.398341 1.54E−12 ENSG00000130818 ZNF426 −1.23788 1.60E−12 ENSG00000151135 TMEM263 −1.2275 1.78E−12 ENSG00000239998 LILRA2 1.141153 1.80E−12 ENSG00000095739 BAMBI 1.407313 1.80E−12 ENSG00000138395 CDK15 1.876828 2.10E−12 ENSG00000179104 TMTC2 −1.29874 2.12E−12 ENSG00000172270 BSG 0.75884 2.32E−12 ENSG00000163606 CD200R1 2.046589 2.56E−12 ENSG00000121933 ADORA3 1.109796 2.86E−12 ENSG00000131979 GCH1 0.941214 2.91E−12 ENSG00000143195 ILDR2 −1.81541 3.06E−12 ENSG00000151320 AKAP6 −2.2415 3.25E−12 ENSG00000171649 ZIK1 −1.36067 3.54E−12 ENSG00000141526 SLC16A3 0.742233 3.85E−12 ENSG00000108176 DNAJC12 −2.42404 4.00E−12 ENSG00000087303 NID2 −2.40631 4.06E−12 ENSG00000163734 CXCL3 1.124028 4.15E−12 ENSG00000171502 COL24A1 −2.12533 4.15E−12 ENSG00000105810 CDK6 −0.77731 4.50E−12 ENSG00000125910 S1PR4 1.057041 4.50E−12 ENSG00000155659 VSIG4 0.783741 4.52E−12 ENSG00000078902 TOLLIP 0.84835 4.71E−12 ENSG00000165029 ABCA1 1.477978 5.19E−12 ENSG00000133805 AMPD3 0.908407 5.73E−12 ENSG00000226742 HSBP1L1 −2.59081 6.08E−12 ENSG00000112294 ALDH5A1 −0.79982 6.63E−12 ENSG00000251442 1.047537 7.00E−12 ENSG00000177606 JUN 1.564343 7.04E−12 ENSG00000188580 NKAIN2 −1.7336 7.06E−12 ENSG00000152082 MZT2B 1.169163 7.43E−12 ENSG00000175899 A2M 1.822085 7.56E−12 ENSG00000149131 SERPING1 −0.96159 7.63E−12 ENSG00000164904 ALDH7A1 −1.71845 8.96E−12 ENSG00000233452 1.112907 9.09E−12 ENSG00000166897 ELFN2 −1.82216 9.13E−12 ENSG00000181409 AATK 1.837932 9.19E−12 ENSG00000196533 1.122125 1.09E−11 ENSG00000130702 LAMA5 1.585422 1.19E−11 ENSG00000197208 SLC22A4 1.222311 1.20E−11 ENSG00000251400 −1.94592 1.38E−11 ENSG00000160211 G6PD 0.792996 1.45E−11 ENSG00000161921 CXCL16 1.378373 1.58E−11 ENSG00000171403 KRT9 1.284098 1.62E−11 ENSG00000103569 AQP9 1.933102 1.82E−11 ENSG00000078804 TP53INP2 1.005663 1.91E−11 ENSG00000198018 ENTPD7 0.928567 1.96E−11 ENSG00000121807 CCR2 −1.25195 1.97E−11 ENSG00000188822 CNR2 1.210094 1.97E−11 ENSG00000104825 NFKBIB 0.965019 1.99E−11 ENSG00000167996 FTH1 0.972512 2.17E−11 ENSG00000006534 ALDH3B1 1.157444 2.19E−11 ENSG00000168685 IL7R −1.0326 2.37E−11 ENSG00000110002 VWA5A −1.00959 2.43E−11 ENSG00000145916 RMND5B 0.961704 2.51E−11 ENSG00000175806 MSRA 0.926555 2.55E−11 ENSG00000051523 CYBA 0.846223 2.56E−11 ENSG00000117115 PADI2 1.11432 3.01E−11 ENSG00000134569 LRP4 2.197876 3.05E−11 ENSG00000188404 SELL −1.83763 3.12E−11 ENSG00000066468 FGFR2 2.337813 3.43E−11 ENSG00000143226 FCGR2A 1.026362 3.95E−11 ENSG00000136193 SCRN1 −0.75755 4.24E−11 ENSG00000066294 CD84 1.194909 4.45E−11 ENSG00000145390 USP53 −0.89497 4.69E−11 ENSG00000182179 UBA7 −1.01387 4.86E−11 ENSG00000104904 OAZ1 0.738116 4.87E−11 ENSG00000204161 C10orf128 0.795656 5.01E−11 ENSG00000134460 IL2RA 1.297269 5.22E−11 ENSG00000110697 PITPNM1 0.829531 5.76E−11 ENSG00000122861 PLAU 0.859094 5.76E−11 ENSG00000138670 RASGEF1B 1.560963 5.79E−11 ENSG00000185624 P4HB 0.742683 5.87E−11 ENSG00000176102 CSTF3 −0.80194 5.92E−11 ENSG00000160446 ZDHHC12 1.017044 6.33E−11 ENSG00000179163 FUCA1 0.874401 6.33E−11 ENSG00000085719 CPNE3 −0.82544 6.58E−11 ENSG00000136068 FLNB −0.81077 6.98E−11 ENSG00000022567 SLC45A4 1.046936 7.43E−11 ENSG00000166925 TSC22D4 0.851932 7.68E−11 ENSG00000118729 CASQ2 2.028469 7.76E−11 ENSG00000152642 GPD1L 0.840004 9.00E−11 ENSG00000150722 PPP1R1C −2.03236 9.12E−11 ENSG00000179855 GIPC3 −0.99041 9.26E−11 ENSG00000168779 SHOX2 1.495878 9.61E−11 ENSG00000197555 SIPA1L1 0.874909 9.68E−11 ENSG00000062282 DGAT2 1.153281 9.73E−11 ENSG00000131981 LGALS3 2.146264 9.83E−11 ENSG00000160179 ABCG1 1.561886 1.05E−10 ENSG00000103187 COTL1 0.733312 1.08E−10 ENSG00000064932 SBNO2 0.819581 1.13E−10 ENSG00000136848 DAB2IP −1.11132 1.22E−10 ENSG00000034053 APBA2 −2.32067 1.23E−10 ENSG00000142512 SIGLEC10 1.090716 1.27E−10 ENSG00000171222 SCAND1 1.05435 1.36E−10 ENSG00000170458 CD14 2.178732 1.39E−10 ENSG00000169313 P2RY12 −1.62342 1.40E−10 ENSG00000158715 SLC45A3 1.104343 1.45E−10 ENSG00000197635 DPP4 −2.18505 1.51E−10 ENSG00000168672 FAM84B −1.32253 1.52E−10 ENSG00000165300 SLITRK5 2.102202 1.54E−10 ENSG00000174083 0.911639 1.68E−10 ENSG00000163554 SPTA1 −2.07309 1.68E−10 ENSG00000136878 USP20 0.754552 1.70E−10 ENSG00000164211 STARD4 0.884969 1.72E−10 ENSG00000179218 CALR 0.763751 1.80E−10 ENSG00000240065 PSMB9 −1.2973 2.03E−10 ENSG00000066336 SPI1 0.742796 2.21E−10 ENSG00000079393 DUSP13 2.194285 2.25E−10 ENSG00000167208 SNX20 1.086183 2.42E−10 ENSG00000112541 PDE10A −0.91957 2.47E−10 ENSG00000136295 TTYH3 0.729159 2.50E−10 ENSG00000140368 PSTPIP1 0.810961 2.76E−10 ENSG00000196371 FUT4 0.881633 2.98E−10 ENSG00000091073 DTX2 1.080507 3.17E−10 ENSG00000138316 ADAMTS14 1.152859 3.19E−10 ENSG00000005379 BZRAP1 −0.87884 3.27E−10 ENSG00000105520 PLPPR2 1.013332 3.35E−10 ENSG00000186891 TNFRSF18 1.411961 3.43E−10 ENSG00000134324 LPIN1 −0.9501 3.63E−10 ENSG00000146409 SLC18B1 −1.3506 3.63E−10 ENSG00000164983 TMEM65 −0.88348 3.82E−10 ENSG00000133101 CCNA1 0.980613 3.91E−10 ENSG00000106852 LHX6 −2.06741 3.95E−10 ENSG00000118985 ELL2 0.815896 4.01E−10 ENSG00000166527 CLEC4D −1.23207 4.36E−10 ENSG00000174516 PELI3 1.2112 4.51E−10 ENSG00000198794 SCAMP5 −0.85329 4.51E−10 ENSG00000126259 KIRREL2 1.228709 4.62E−10 ENSG00000117984 CTSD 0.826183 4.82E−10 ENSG00000067798 NAV3 2.223469 4.94E−10 ENSG00000108846 ABCC3 −1.69006 5.04E−10 ENSG00000013725 CD6 −1.51278 5.04E−10 ENSG00000143382 ADAMTSL4 1.119137 5.15E−10 ENSG00000051128 HOMER3 0.93552 5.16E−10 ENSG00000228695 CES1P1 2.064601 5.16E−10 ENSG00000134107 BHLHE40 0.695459 5.20E−10 ENSG00000110841 PPFIBP1 −1.00958 5.53E−10 ENSG00000187051 RPS19BP1 0.830272 5.81E−10 ENSG00000134070 IRAK2 1.213933 5.88E−10 ENSG00000183242 WT1-AS −1.71233 5.88E−10 ENSG00000125503 PPP1R12C 0.764484 5.92E−10 ENSG00000104879 CKM 1.095863 6.44E−10 ENSG00000040531 CTNS 0.756944 6.73E−10 ENSG00000150907 FOXO1 −1.26312 7.14E−10 ENSG00000106123 EPHB6 −1.792 7.43E−10 ENSG00000135476 ESPL1 0.938668 7.87E−10 ENSG00000084234 APLP2 0.658316 8.60E−10 ENSG00000151651 ADAM8 1.031656 1.04E−09 ENSG00000021645 NRXN3 2.135821 1.08E−09 ENSG00000055163 CYFIP2 0.780586 1.11E−09 ENSG00000146232 NFKBIE 0.757965 1.16E−09 ENSG00000122025 FLT3 −1.75886 1.18E−09 ENSG00000112715 VEGFA 0.82666 1.21E−09 ENSG00000126947 ARMCX1 −1.01414 1.24E−09 ENSG00000156587 UBE2L6 −0.79123 1.26E−09 ENSG00000182718 ANXA2 0.982043 1.28E−09 ENSG00000196914 ARHGEF12 −1.0235 1.49E−09 ENSG00000125170 DOK4 −0.91406 1.56E−09 ENSG00000157350 ST3GAL2 0.754134 1.57E−09 ENSG00000187653 1.154484 1.68E−09 ENSG00000104093 DMXL2 0.871262 1.75E−09 ENSG00000166123 GPT2 −1.12206 1.90E−09 ENSG00000008394 MGST1 −0.70294 1.95E−09 ENSG00000182087 TMEM259 0.728522 2.07E−09 ENSG00000170946 DNAJC24 −0.90698 2.13E−09 ENSG00000138443 ABI2 −0.77737 2.17E−09 ENSG00000175130 MARCKSL1 0.667422 2.20E−09 ENSG00000079215 SLC1A3 1.963955 2.31E−09 ENSG00000103363 TCEB2 0.727518 2.34E−09 ENSG00000187147 RNF220 −0.94472 2.35E−09 ENSG00000161671 EMC10 −2.28295 2.37E−09 ENSG00000183049 CAMKID 0.899499 2.46E−09 ENSG00000134184 GSTM1 −0.94809 2.65E−09 ENSG00000091181 IL5RA 1.90425 2.94E−09 ENSG00000224397 1.338518 2.94E−09 ENSG00000183048 SLC25A10 1.097202 3.05E−09 ENSG00000099624 ATP5D 0.795493 3.11E−09 ENSG00000141577 CEP131 1.078366 3.38E−09 ENSG00000165659 −1.4416 3.80E−09 ENSG00000169519 METTL15 −1.14667 3.88E−09 ENSG00000046604 DSG2 −0.67359 3.98E−09 ENSG00000162174 ASRGL1 1.735424 4.13E−09 ENSG00000115738 ID2 0.66026 4.18E−09 ENSG00000125780 TGM3 2.150465 4.38E−09 ENSG00000136630 HLX 1.305935 4.40E−09 ENSG00000148411 NACC2 0.881732 4.40E−09 ENSG00000184164 CRELD2 0.8474 4.56E−09 ENSG00000116991 SIPA1L2 1.021288 4.62E−09 ENSG00000077238 IL4R 0.682532 4.92E−09 ENSG00000173221 GLRX 0.727319 5.07E−09 ENSG00000189120 SP6 −1.06394 5.07E−09 ENSG00000139832 RAB20 1.080902 5.08E−09 ENSG00000173542 MOB1B −0.79318 5.20E−09 ENSG00000116670 MAD2L2 0.720264 5.45E−09 ENSG00000147955 SIGMAR1 −2.22512 5.53E−09 ENSG00000135842 FAM129A 0.909156 5.71E−09 ENSG00000258573 LOC254028 1.249683 5.71E−09 ENSG00000196968 FUT11 −0.96879 6.16E−09 ENSG00000198055 GRK6 0.694266 6.18E−09 ENSG00000156575 PRG3 2.03733 6.38E−09 ENSG00000109854 HTATIP2 −2.20322 6.39E−09 ENSG00000134138 MEIS2 0.796773 6.53E−09 ENSG00000146373 RNF217 −0.86196 7.10E−09 ENSG00000125089 SH3TC1 0.74578 7.17E−09 ENSG00000161091 MFSD12 0.705096 7.81E−09 ENSG00000099364 FBXL19 0.728086 7.92E−09 ENSG00000127951 FGL2 1.678797 8.06E−09 ENSG00000011523 CEP68 −0.87708 8.18E−09 ENSG00000197982 C1orf122 0.963059 8.36E−09 ENSG00000164237 CMBL −0.79327 8.42E−09 ENSG00000145901 TNIP1 1.016378 8.45E−09 ENSG00000114626 ABTB1 0.879817 8.55E−09 ENSG00000187796 CARD9 1.036579 8.85E−09 ENSG00000180530 NRIP1 −0.94102 9.18E−09 ENSG00000127564 PKMYT1 0.953262 9.57E−09 ENSG00000178773 CPNE7 −2.10424 9.76E−09 ENSG00000078177 N4BP2 −0.88902 9.82E−09 ENSG00000131591 C1orf159 1.000939 1.01E−08 ENSG00000125912 NCLN 0.77824 1.05E−08 ENSG00000180815 MAP3K15 1.653179 1.06E−08 ENSG00000085276 MECOM −0.74395 1.08E−08 ENSG00000131242 RAB11FIP4 0.771799 1.17E−08 ENSG00000156858 PRR14 0.804773 1.20E−08 ENSG00000143995 MEIS1 −0.85028 1.20E−08 ENSG00000088992 TESC 0.819297 1.23E−08 ENSG00000158887 MPZ 0.907861 1.23E−08 ENSG00000155760 FZD7 1.417614 1.27E−08 ENSG00000113296 THBS4 1.981552 1.29E−08 ENSG00000172602 RND1 1.676185 1.31E−08 ENSG00000185669 SNAI3 0.849852 1.35E−08 ENSG00000188157 AGRN 0.852897 1.41E−08 ENSG00000171488 LRRC8C −0.64215 1.46E−08 ENSG00000184635 ZNF93 −1.19861 1.49E−08 ENSG00000132879 FBXO44 −1.78685 1.50E−08 ENSG00000139112 GABARAPL1 1.034369 1.63E−08 ENSG00000160570 DEDD2 0.866394 1.78E−08 ENSG00000100065 CARD10 −1.58327 1.79E−08 ENSG00000158477 CD1A 2.085673 1.81E−08 ENSG00000130396 MLLT4 0.788646 1.82E−08 ENSG00000161618 ALDH16A1 0.884262 1.84E−08 ENSG00000164251 F2RL1 −0.88578 1.88E−08 ENSG00000175832 ETV4 1.431785 1.91E−08 ENSG00000142657 PGD 0.611752 1.95E−08 ENSG00000112773 FAM46A 0.812949 1.97E−08 ENSG00000163453 IGFBP7 0.702139 1.97E−08 ENSG00000020633 RUNX3 −0.66332 2.03E−08 ENSG00000197183 NOL4L −0.80478 2.23E−08 ENSG00000197548 ATG7 0.699327 2.24E−08 ENSG00000151229 SLC2A13 0.883008 2.26E−08 ENSG00000128228 SDF2L1 0.995988 2.27E−08 ENSG00000154654 NCAM2 −1.5459 2.31E−08 ENSG00000187773 FAM69C −1.6243 2.31E−08 ENSG00000129195 FAM64A 1.220863 2.32E−08 ENSG00000204852 TCTN1 −1.13464 2.32E−08 ENSG00000109944 C11orf63 −2.03045 2.33E−08 ENSG00000142634 EFHD2 0.676071 2.39E−08 ENSG00000172216 CEBPB 0.92701 2.58E−08 ENSG00000007062 PROM1 −2.07315 2.65E−08 ENSG00000055332 EIF2AK2 −0.7539 2.66E−08 ENSG00000105404 RABAC1 0.970328 2.78E−08 ENSG00000117266 CDK18 −1.27602 3.05E−08 ENSG00000166352 C11orf74 −0.91663 3.08E−08 ENSG00000081059 TCF7 1.827126 3.22E−08 ENSG00000178860 MSC 0.790043 3.30E−08 ENSG00000127507 ADGRE2 0.671737 3.34E−08 ENSG00000166432 ZMAT1 −1.54456 3.34E−08 ENSG00000149798 CDC42EP2 1.712342 3.36E−08 ENSG00000018280 SLC11A1 1.853447 3.48E−08 ENSG00000133246 PRAM1 0.663462 3.56E−08 ENSG00000131634 TMEM204 −1.88043 3.68E−08 ENSG00000143333 RGS16 1.076041 3.69E−08 ENSG00000230400 LOC105372566 −1.24423 3.71E−08 ENSG00000092929 UNC13D 0.67647 4.09E−08 ENSG00000071655 MBD3 0.752242 4.16E−08 ENSG00000133466 C1QTNF6 −1.22831 4.66E−08 ENSG00000237440 ZNF737 −1.0715 4.67E−08 ENSG00000155629 PIK3AP1 0.773809 4.86E−08 ENSG00000146094 DOK3 0.67849 5.07E−08 ENSG00000168528 SERINC2 1.226275 5.09E−08 ENSG00000160255 ITGB2 0.811241 5.20E−08 ENSG00000115641 FHL2 −1.47765 5.50E−08 ENSG00000254726 MEX3A −1.39153 5.66E−08 ENSG00000167671 UBXN6 0.660037 5.71E−08 ENSG00000173402 DAG1 0.81646 5.74E−08 ENSG00000173868 PHOSPHO1 1.243181 5.87E−08 ENSG00000101188 NTSR1 −1.25224 6.06E−08 ENSG00000110717 NDUFS8 0.750138 6.10E−08 ENSG00000129925 TMEM8A 0.798238 6.20E−08 ENSG00000144218 AFF3 1.370444 6.46E−08 ENSG00000122970 IFT81 −1.1841 6.94E−08 ENSG00000205730 ITPRIPL2 −0.67899 6.94E−08 ENSG00000152582 SPEF2 −1.18855 6.98E−08 ENSG00000154479 CCDC173 −1.07731 7.22E−08 ENSG00000059728 MXD1 0.754029 7.33E−08 ENSG00000100417 PMM1 1.015706 7.41E−08 ENSG00000042753 AP2S1 0.607581 7.77E−08 ENSG00000138758 42624 −0.5967 7.94E−08 ENSG00000099804 CDC34 0.777768 7.99E−08 ENSG00000169641 LUZP1 −0.64199 8.02E−08 ENSG00000124334 IL9R 1.286308 8.12E−08 ENSG00000196950 SLC39A10 −0.67639 8.17E−08 ENSG00000106034 CPED1 −1.95559 8.26E−08 ENSG00000168843 FSTL5 −1.82321 8.28E−08 ENSG00000180257 ZNF816 −0.81335 8.28E−08 ENSG00000154447 SH3RF1 −0.86192 8.57E−08 ENSG00000154930 ACSS1 −0.68449 8.66E−08 ENSG00000076944 STXBP2 0.689494 8.92E−08 ENSG00000160883 HK3 0.802249 9.29E−08 ENSG00000213347 MXD3 1.325643 9.54E−08 ENSG00000129235 TXNDC17 0.647322 1.05E−07 ENSG00000183621 ZNF438 0.772469 1.07E−07 ENSG00000119865 CNRIP1 −1.02429 1.07E−07 ENSG00000204482 LST1 0.816169 1.08E−07 ENSG00000120156 TEK −1.86197 1.08E−07 ENSG00000166557 TMED3 0.629074 1.08E−07 ENSG00000167851 CD300A −0.80424 1.08E−07 ENSG00000256660 CLEC12B 0.956101 1.09E−07 ENSG00000135631 RAB11FIP5 1.177441 1.11E−07 ENSG00000011132 APBA3 0.900283 1.11E−07 ENSG00000137135 ARHGEF39 0.966284 1.16E−07 ENSG00000272825 1.34735 1.17E−07 ENSG00000073169 SELO 0.768382 1.17E−07 ENSG00000159069 FBXW5 0.697845 1.17E−07 ENSG00000172380 GNG12 −0.81467 1.20E−07 ENSG00000157554 ERG −0.95548 1.27E−07 ENSG00000164087 POC1A 0.766508 1.31E−07 ENSG00000131650 KREMEN2 1.148435 1.34E−07 ENSG00000169744 LDB2 −1.61812 1.34E−07 ENSG00000162722 TRIM58 −1.1009 1.40E−07 ENSG00000100284 TOM1 0.825963 1.40E−07 ENSG00000130429 ARPC1B 0.660219 1.41E−07 ENSG00000081041 CXCL2 0.901795 1.45E−07 ENSG00000164484 TMEM200A −1.03562 1.45E−07 ENSG00000108091 CCDC6 −0.61793 1.45E−07 ENSG00000197562 RAB40C 0.79755 1.52E−07 ENSG00000011422 PLAUR 0.768379 1.52E−07 ENSG00000130775 THEMIS2 0.718886 1.53E−07 ENSG00000152818 UTRN −0.76068 1.58E−07 ENSG00000243477 NAT6 0.837498 1.58E−07 ENSG00000100242 SUN2 0.701911 1.60E−07 ENSG00000162522 KIAA1522 −0.85202 1.60E−07 ENSG00000173272 MZT2A 0.816388 1.62E−07 ENSG00000137834 SMAD6 −0.81355 1.64E−07 ENSG00000205978 NYNRIN −0.83996 1.65E−07 ENSG00000153993 SEMA3D 1.004467 1.68E−07 ENSG00000087448 KLHL42 −0.67194 1.69E−07 ENSG00000149970 CNKSR2 1.942516 1.78E−07 ENSG00000171045 TSNARE1 1.023097 1.79E−07 ENSG00000091129 NRCAM 1.367825 1.84E−07 ENSG00000106701 FSD1L −0.81322 1.86E−07 ENSG00000074706 IPCEF1 0.771771 1.91E−07 ENSG00000123989 CHPF 1.324982 1.95E−07 ENSG00000227507 LTB 1.020814 1.95E−07 ENSG00000076555 ACACB 1.24664 1.95E−07 ENSG00000128973 CLN6 0.653747 2.21E−07 ENSG00000110046 ATG2A 0.846574 2.22E−07 ENSG00000144451 SPAG16 −1.06831 2.22E−07 ENSG00000163959 SLC51A 1.917389 2.23E−07 ENSG00000183134 PTGDR2 1.118398 2.24E−07 ENSG00000115306 SPTBN1 −0.89926 2.26E−07 ENSG00000116641 DOCK7 −0.66692 2.33E−07 ENSG00000197329 PELI1 0.671373 2.63E−07 ENSG00000001561 ENPP4 0.944282 2.64E−07 ENSG00000163694 RBM47 1.175887 2.68E−07 ENSG00000185803 SLC52A2 0.720374 2.76E−07 ENSG00000170293 CMTM8 −1.45942 2.79E−07 ENSG00000172575 RASGRP1 1.569079 2.85E−07 ENSG00000231991 0.897965 2.86E−07 ENSG00000122417 ODF2L −0.77896 2.89E−07 ENSG00000130312 MRPL34 0.820916 2.89E−07 ENSG00000180448 HMHA1 0.707138 2.91E−07 ENSG00000064961 HMG20B 0.637654 2.96E−07 ENSG00000088053 GP6 −1.56716 3.00E−07 ENSG00000010327 STAB1 0.901465 3.01E−07 ENSG00000184990 SIVA1 0.768433 3.02E−07 ENSG00000188486 H2AFX 0.760588 3.09E−07 ENSG00000127533 F2RL3 −1.25821 3.12E−07 ENSG00000135940 COX5B 0.621568 3.12E−07 ENSG00000167601 AXL −1.47516 3.14E−07 ENSG00000138119 MYOF 1.626182 3.21E−07 ENSG00000174886 NDUFA11 0.889145 3.22E−07 ENSG00000155307 SAMSN1 0.660224 3.28E−07 ENSG00000183019 MCEMP1 0.734523 3.41E−07 ENSG00000019582 CD74 −0.85428 3.49E−07 ENSG00000140836 ZFHX3 −0.85631 3.55E−07 ENSG00000111679 PTPN6 0.717076 3.58E−07 ENSG00000135766 EGLN1 0.925058 3.62E−07 ENSG00000131446 MGAT1 0.708452 3.64E−07 ENSG00000100258 LMF2 0.828102 3.79E−07 ENSG00000108001 EBF3 −0.98063 3.79E−07 ENSG00000171811 CFAP46 1.762816 3.83E−07 ENSG00000187699 C2orf88 −0.88613 3.83E−07 ENSG00000135549 PKIB −0.71289 3.89E−07 ENSG00000105963 ADAP1 1.072983 3.99E−07 ENSG00000040487 PQLC2 0.699456 4.01E−07 ENSG00000071242 RPS6KA2 −1.4098 4.04E−07 ENSG00000167552 TUBA1A −0.70669 4.04E−07 ENSG00000116663 FBXO6 0.835172 4.18E−07 ENSG00000131409 LRRC4B 0.693306 4.26E−07 ENSG00000070882 OSBPL3 −0.67238 4.27E−07 ENSG00000164308 ERAP2 −0.64352 4.27E−07 ENSG00000130881 LRP3 0.924758 4.38E−07 ENSG00000091409 ITGA6 −0.85349 4.54E−07 ENSG00000160949 TONSL 0.793889 4.59E−07 ENSG00000167580 AQP2 −1.68782 4.61E−07 ENSG00000166341 DCHS1 −1.19523 4.65E−07 ENSG00000196526 AFAP1 0.954973 4.66E−07 ENSG00000162437 RAVER2 −0.70834 4.75E−07 ENSG00000095906 NUBP2 0.849386 4.98E−07 ENSG00000125657 TNFSF9 0.813432 4.99E−07 ENSG00000011600 TYROBP 0.78425 5.06E−07 ENSG00000133612 AGAP3 0.822727 5.09E−07 ENSG00000224051 CPTP 0.849856 5.09E−07 ENSG00000198171 DDRGK1 0.648055 5.26E−07 ENSG00000167232 ZNF91 −0.742 5.27E−07 ENSG00000103326 CAPN15 0.770461 5.48E−07 ENSG00000166793 YPEL4 1.130472 5.51E−07 ENSG00000121621 KIF18A −0.84832 5.54E−07 ENSG00000023191 RNH1 0.65674 5.77E−07 ENSG00000147459 DOCK5 −0.60628 5.95E−07 ENSG00000105327 BBC3 0.859583 6.04E−07 ENSG00000187800 PEAR1 −0.95926 6.23E−07 ENSG00000182541 LIMK2 0.641583 6.32E−07 ENSG00000197016 ZNF470 −1.23045 6.38E−07 ENSG00000078900 TP73 1.19705 6.72E−07 ENSG00000214655 ZSWIM8 0.667465 6.85E−07 ENSG00000112992 NNT −0.56853 7.03E−07 ENSG00000188921 HACD4 −0.60463 7.03E−07 ENSG00000149639 SOGA1 −0.72411 7.10E−07 ENSG00000121413 ZSCAN18 −1.10588 7.10E−07 ENSG00000109436 TBC1D9 −0.66539 7.22E−07 ENSG00000198133 TMEM229B −1.76046 7.28E−07 ENSG00000114654 EFCC1 −1.58082 7.38E−07 ENSG00000169991 IFFO2 −0.7706 7.38E−07 ENSG00000099795 NDUFB7 0.779297 7.61E−07 ENSG00000077454 LRCH4 0.59053 7.68E−07 ENSG00000078399 HOXA9 −0.66529 8.02E−07 ENSG00000175756 AURKAIP1 0.675622 8.17E−07 ENSG00000160326 SLC2A6 1.834033 8.42E−07 ENSG00000102096 PIM2 0.98834 8.67E−07 ENSG00000205336 ADGRG1 −1.04267 8.80E−07 ENSG00000257176 LOC100506606 −0.95784 8.80E−07 ENSG00000134575 ACP2 0.753907 8.90E−07 ENSG00000102780 DGKH −0.69491 9.04E−07 ENSG00000185565 LSAMP −0.79358 9.04E−07 ENSG00000184117 NIPSNAP1 −0.61704 9.05E−07 ENSG00000171988 JMJD1C −0.66702 9.10E−07 ENSG00000112077 RHAG −1.69649 9.12E−07 ENSG00000130066 SAT1 0.78536 1.02E−06 ENSG00000178163 ZNF518B −0.9379 1.04E−06 ENSG00000141506 PIK3R5 0.695559 1.04E−06 ENSG00000180900 SCRIB 0.814221 1.06E−06 ENSG00000134955 SLC37A2 0.993017 1.06E−06 ENSG00000117289 0.598214 1.09E−06 ENSG00000156026 MCU 0.601103 1.09E−06 ENSG00000177191 B3GNT8 1.125331 1.11E−06 ENSG00000143774 GUK1 0.737841 1.13E−06 ENSG00000007080 CCDC124 0.752978 1.14E−06 ENSG00000152492 CCDC50 −0.67992 1.14E−06 ENSG00000168071 CCDC88B 0.803277 1.15E−06 ENSG00000104885 DOT1L 0.640849 1.15E−06 EN5G00000064545 TMEM161A 0.691537 1.16E−06 ENSG00000137871 ZNF280D −0.74122 1.17E−06 ENSG00000131408 NR1H2 0.708825 1.18E−06 ENSG00000161677 JOSD2 1.074698 1.19E−06 ENSG00000198400 NTRK1 0.846919 1.21E−06 ENSG00000165915 SLC39A13 0.723723 1.24E−06 ENSG00000168280 KIF5C 1.670436 1.24E−06 ENSG00000235609 −0.99608 1.26E−06 ENSG00000143771 CNIH4 0.611428 1.27E−06 ENSG00000069974 RAB27A 0.606059 1.28E−06 ENSG00000127329 PTPRB −0.58998 1.30E−06 ENSG00000003436 TFPI −0.8345 1.31E−06 ENSG00000035403 VCL −0.53703 1.31E−06 ENSG00000197019 SERTAD1 0.770913 1.35E−06 ENSG00000211445 GPX3 1.581994 1.37E−06 ENSG00000078808 SDF4 0.600326 1.41E−06 ENSG00000104870 FCGRT 0.709885 1.42E−06 ENSG00000119139 TJP2 0.565264 1.46E−06 ENSG00000196588 MKL1 0.58518 1.49E−06 ENSG00000165168 CYBB 0.650769 1.49E−06 ENSG00000161835 GRASP 1.507466 1.51E−06 ENSG00000005187 ACSM3 0.635143 1.52E−06 ENSG00000143889 HNRNPLL 0.646476 1.52E−06 ENSG00000105397 TYK2 0.567088 1.56E−06 ENSG00000168502 MTCL1 1.873915 1.57E−06 ENSG00000175505 CLCF1 1.399845 1.61E−06 ENSG00000183696 UPP1 0.673995 1.61E−06 ENSG00000185236 RAB11B 0.628339 1.67E−06 ENSG00000104918 RETN 0.911944 1.70E−06 ENSG00000163191 S100A11 0.563603 1.77E−06 ENSG00000176978 DPP7 0.640101 1.77E−06 ENSG00000196126 HLA-DRB1 −0.84201 1.79E−06 ENSG00000108219 TSPAN14 0.552881 1.80E−06 ENSG00000125995 ROMO1 0.698154 1.82E−06 ENSG00000111666 CHPT1 0.741369 1.83E−06 ENSG00000100083 GGA1 0.602745 1.85E−06 ENSG00000136960 ENPP2 0.760236 1.85E−06 ENSG00000108854 SMURF2 −0.61602 1.95E−06 ENSG00000177600 RPLP2 0.527011 1.95E−06 ENSG00000074370 ATP2A3 0.593379 1.98E−06 ENSG00000165757 KIAA1462 −1.57259 1.98E−06 ENSG00000173890 GPR160 0.602471 1.98E−06 ENSG00000015475 BID 0.769542 2.01E−06 ENSG00000148488 ST8SIA6 −1.04955 2.02E−06 ENSG00000266709 MGC12916 1.687222 2.02E−06 ENSG00000172366 FAM195A 0.784739 2.02E−06 ENSG00000104774 MAN2B1 0.708106 2.03E−06 ENSG00000152926 ZNF117 −0.63501 2.06E−06 ENSG00000173546 CSPG4 −1.56365 2.07E−06 ENSG00000178950 GAK 0.572793 2.08E−06 ENSG00000111145 ELK3 −0.71538 2.10E−06 ENSG00000226979 LTA 1.536465 2.11E−06 ENSG00000146535 GNA12 −0.65414 2.11E−06 ENSG00000120885 CLU 0.971778 2.11E−06 ENSG00000149761 NUDT22 0.786299 2.14E−06 ENSG00000171631 P2RY6 1.479139 2.17E−06 ENSG00000008516 MMP25 0.992629 2.18E−06 ENSG00000100365 NCF4 0.579321 2.19E−06 ENSG00000186152 1.396854 2.19E−06 ENSG00000105373 GLTSCR2 0.630947 2.21E−06 ENSG00000165685 TMEM52B 1.535667 2.22E−06 ENSG00000130706 ADRM1 0.662362 2.26E−06 ENSG00000121594 CD80 1.853457 2.27E−06 ENSG00000242802 AP5Z1 0.663183 2.29E−06 ENSG00000165434 PGM2L1 0.597847 2.30E−06 ENSG00000133275 CSNK1G2 0.638882 2.35E−06 ENSG00000179388 EGR3 0.809618 2.35E−06 ENSG00000138061 CYP1B1 −1.81856 2.38E−06 ENSG00000163131 CTSS 0.590127 2.38E−06 ENSG00000160685 ZBTB7B 0.650985 2.39E−06 ENSG00000118432 CNR1 1.629899 2.41E−06 ENSG00000063241 ISOC2 0.650005 2.50E−06 ENSG00000104886 PLEKHJ1 0.608317 2.53E−06 ENSG00000057252 SOAT1 −0.65467 2.53E−06 ENSG00000184232 OAF −0.77934 2.54E−06 ENSG00000155252 PI4K2A 0.699903 2.59E−06 ENSG00000162367 TAL1 −0.63564 2.61E−06 ENSG00000113721 PDGFRB −1.45417 2.63E−06 ENSG00000121104 FAM117A 0.82145 2.65E−06 ENSG00000158825 CDA 1.08697 2.68E−06 ENSG00000118965 WDR35 −0.80228 2.68E−06 ENSG00000158869 FCER1G 0.691345 2.75E−06 ENSG00000185112 FAM43A 0.78456 2.75E−06 ENSG00000163840 DTX3L −0.74081 2.79E−06 ENSG00000140564 FURIN 0.553879 2.80E−06 ENSG00000120129 DUSP1 1.203565 2.81E−06 ENSG00000169223 LMAN2 0.57829 2.84E−06 ENSG00000104368 PLAT 1.661803 2.85E−06 ENSG00000197497 ZNF665 −1.77168 2.86E−06 ENSG00000130733 YIPF2 0.657911 2.95E−06 ENSG00000167460 TPM4 −0.62827 2.95E−06 ENSG00000114480 GBE1 0.58396 2.98E−06 ENSG00000164889 SLC4A2 0.587251 3.02E−06 ENSG00000142875 PRKACB −0.53518 3.05E−06 ENSG00000149823 VPS51 0.623445 3.09E−06 ENSG00000135916 ITM2C 0.555132 3.09E−06 ENSG00000167994 RAB3IL1 −1.05377 3.16E−06 ENSG00000151746 BICD1 −0.83978 3.21E−06 ENSG00000233762 0.673281 3.29E−06 ENSG00000042980 ADAM28 −0.79401 3.32E−06 ENSG00000188343 FAM92A1 −0.78213 3.35E−06 ENSG00000008517 IL32 1.396014 3.36E−06 ENSG00000163931 TKT 0.53882 3.43E−06 ENSG00000180316 PNPLA1 1.422926 3.49E−06 ENSG00000204389 HSPA1A −1.63443 3.57E−06 ENSG00000197766 CFD 0.691056 3.57E−06 ENSG00000121039 RDH10 0.709679 3.59E−06 ENSG00000139793 MBNL2 −1.29339 3.60E−06 ENSG00000179750 APOBEC3B 0.698806 3.61E−06 ENSG00000257335 MGAM 0.597385 3.65E−06 ENSG00000142185 TRPM2 0.932535 3.68E−06 ENSG00000185198 PRSS57 1.081696 3.78E−06 ENSG00000154146 NRGN 0.708687 3.86E−06 ENSG00000145779 TNFAIP8 0.527117 3.93E−06 ENSG00000110881 ASIC1 0.647613 3.93E−06 ENSG00000204252 HLA-DOA −1.42195 3.93E−06 ENSG00000069399 BCL3 0.74496 3.97E−06 ENSG00000262814 MRPL12 0.879836 4.06E−06 ENSG00000142556 ZNF614 −0.60962 4.14E−06 ENSG00000077463 SIRT6 0.687268 4.17E−06 ENSG00000090316 MAEA 0.637074 4.32E−06 ENSG00000221866 PLXNA4 1.395107 4.38E−06 ENSG00000115602 IL1RL1 0.739964 4.39E−06 ENSG00000159128 IFNGR2 0.802349 4.46E−06 ENSG00000104888 SLC17A7 −1.26831 4.48E−06 ENSG00000203326 ZNF525 −0.67886 4.54E−06 ENSG00000100298 APOBEC3H −0.88813 4.63E−06 ENSG00000140983 RHOT2 0.608402 4.70E−06 ENSG00000204237 OXLD1 0.715125 4.71E−06 ENSG00000056558 TRAF1 1.710966 4.73E−06 ENSG00000140682 TGFB1I1 −1.623 4.73E−06 ENSG00000000971 CFH −1.24425 4.76E−06 ENSG00000167645 YIF1B 0.670479 4.79E−06 ENSG00000198520 C1orf228 0.772538 4.93E−06 ENSG00000110719 TCIRG1 0.607516 4.99E−06 ENSG00000235605 0.749361 5.01E−06 ENSG00000182154 MRPL41 0.874727 5.04E−06 ENSG00000070423 RNF126 0.761157 5.13E−06 ENSG00000112473 SLC39A7 0.538266 5.13E−06 ENSG00000114107 CEP70 −0.91301 5.14E−06 ENSG00000116809 ZBTB17 0.66948 5.17E−06 ENSG00000119711 ALDH6A1 −0.58814 5.18E−06 ENSG00000128626 MRPS12 0.641982 5.23E−06 ENSG00000159399 HK2 0.627342 5.24E−06 ENSG00000204217 BMPR2 −0.5869 5.26E−06 ENSG00000153214 TMEM87B −0.58944 5.34E−06 ENSG00000261005 1.007292 5.45E−06 ENSG00000160593 JAML 0.79125 5.51E−06 ENSG00000126934 MAP2K2 0.575486 5.60E−06 ENSG00000147650 LRP12 0.628228 5.61E−06 ENSG00000106484 MEST 0.818759 5.62E−06 ENSG00000166974 MAPRE2 −0.62303 5.62E−06 ENSG00000129932 DOHH 0.949883 5.62E−06 ENSG00000153094 BCL2L11 0.777148 5.66E−06 ENSG00000186193 SAPCD2 0.665656 5.66E−06 ENSG00000154258 ABCA9 −1.32331 5.71E−06 ENSG00000188389 PDCD1 1.48654 5.79E−06 ENSG00000007376 RPUSD1 0.676225 5.87E−06 ENSG00000099385 BCL7C 0.612882 5.87E−06 ENSG00000116691 MIIP 0.808073 5.91E−06 ENSG00000008277 ADAM22 0.787443 6.04E−06 ENSG00000165322 ARHGAP12 −0.92895 6.10E−06 ENSG00000117410 ATP6V0B 0.541924 6.27E−06 ENSG00000143702 CEP170 −0.66843 6.30E−06 ENSG00000127124 HIVEP3 −0.73893 6.34E−06 ENSG00000101160 CTSZ 0.58164 6.48E−06 ENSG00000130635 COL5A1 −1.06914 6.67E−06 ENSG00000124107 SLPI 1.634011 6.73E−06 ENSG00000115268 RPS15 0.53159 6.74E−06 ENSG00000205592 −1.75602 6.77E−06 ENSG00000072818 ACAP1 0.552696 6.78E−06 ENSG00000099219 ERMP1 −0.52488 6.79E−06 ENSG00000162999 DUSP19 −1.44611 6.79E−06 ENSG00000235568 NFAM1 0.932045 6.81E−06 ENSG00000060069 CTDP1 0.63313 7.04E−06 ENSG00000079739 PGM1 1.343214 7.12E−06 ENSG00000112149 CD83 1.654499 7.18E−06 ENSG00000104951 IL4I1 1.754339 7.21E−06 ENSG00000133065 SLC41A1 −0.7693 7.22E−06 ENSG00000160867 FGFR4 0.659231 7.53E−06 ENSG00000132510 KDM6B 0.67017 7.53E−06 ENSG00000027697 IFNGR1 0.65129 7.55E−06 ENSG00000135046 ANXA1 −0.70511 7.69E−06 ENSG00000153317 ASAP1 0.535222 7.71E−06 ENSG00000146858 ZC3HAV1L −0.97525 7.88E−06 ENSG00000130600 H19 −1.54122 7.94E−06 ENSG00000144040 SFXN5 0.720056 7.96E−06 ENSG00000152104 PTPN14 −0.88 8.04E−06 ENSG00000177674 AGTRAP 0.574167 8.06E−06 ENSG00000156011 PSD3 0.846146 8.10E−06 ENSG00000237604 1.023956 8.13E−06 ENSG00000146066 HIGD2A 0.543526 8.23E−06 ENSG00000198075 SULT1C4 −1.23969 8.33E−06 ENSG00000127586 CHTF18 0.881386 8.38E−06 ENSG00000160957 RECQL4 0.825233 8.43E−06 ENSG00000130844 ZNF331 −0.98689 8.47E−06 ENSG00000074842 MYDGF 0.560164 8.47E−06 ENSG00000133027 PEMT 0.65733 8.47E−06 ENSG00000232368 0.610687 8.77E−06 ENSG00000102145 GATA1 0.761869 8.81E−06 ENSG00000137801 THBS1 0.798825 8.83E−06 ENSG00000149089 APIP −0.7281 8.85E−06 ENSG00000117245 KIF17 −1.09371 8.88E−06 ENSG00000226976 0.646203 8.88E−06 ENSG00000176783 RUFY1 −0.73725 8.89E−06 ENSG00000126264 HCST 0.669474 9.03E−06 ENSG00000215417 MIR17HG −0.76339 9.03E−06 ENSG00000164120 HPGD 0.571594 9.12E−06 ENSG00000137968 SLC44A5 −1.22548 9.27E−06 ENSG00000124593 PRICKLE4 −0.78944 9.28E−06 ENSG00000232203 1.0306 9.41E−06 ENSG00000109320 NFKB1 0.811778 9.74E−06 ENSG00000163322 FAM175A −0.56597 9.74E−06 ENSG00000168081 PNOC 1.492102 9.86E−06 ENSG00000107819 SFXN3 −0.54815 1.00E−05 ENSG00000099849 RASSF7 0.796668 1.03E−05 ENSG00000175701 0.967692 1.05E−05 ENSG00000204287 HLA-DRA −0.81839 1.05E−05 ENSG00000077984 CST7 0.706267 1.09E−05 ENSG00000126249 PDCD2L −1.00196 1.14E−05 ENSG00000089351 GRAMD1A 0.837231 1.16E−05 ENSG00000151474 FRMD4A −0.60205 1.17E−05 ENSG00000099800 TIMM13 0.609545 1.18E−05 ENSG00000110446 SLC15A3 1.373008 1.18E−05 ENSG00000160191 PDE9A −0.86177 1.18E−05 ENSG00000161847 RAVER1 0.717388 1.18E−05 ENSG00000175463 TBC1D10C 0.599589 1.19E−05 ENSG00000165028 NIPSNAP3B −0.8809 1.20E−05 ENSG00000171051 FPR1 1.36443 1.20E−05 ENSG00000186047 DLEU7 1.093422 1.24E−05 ENSG00000229671 −0.85435 1.25E−05 ENSG00000131018 SYNE1 1.36425 1.26E−05 ENSG00000166927 MS4A7 −0.66549 1.26E−05 ENSG00000130332 LSM7 0.569014 1.27E−05 ENSG00000203306 1.336411 1.27E−05 ENSG00000163683 SMIM14 1.157575 1.28E−05 ENSG00000188566 NDOR1 0.725985 1.28E−05 ENSG00000251322 SHANK3 −0.71354 1.32E−05 ENSG00000112667 DNPH1 0.693869 1.33E−05 ENSG00000180263 FGD6 −0.81932 1.34E−05 ENSG00000180871 CXCR2 0.871767 1.34E−05 ENSG00000186318 BACE1 −0.64574 1.35E−05 ENSG00000102362 SYTL4 −0.66302 1.35E−05 ENSG00000204604 ZNF468 −0.58134 1.35E−05 ENSG00000163870 TPRA1 0.615314 1.41E−05 ENSG00000123643 SLC36A1 0.622685 1.41E−05 ENSG00000161011 SQSTM1 0.804597 1.43E−05 ENSG00000164323 CFAP97 −0.56945 1.44E−05 ENSG00000107521 HPS1 0.544429 1.45E−05 ENSG00000156642 NPTN 0.500792 1.49E−05 ENSG00000136869 TLR4 0.791318 1.54E−05 ENSG00000145569 FAM105A 0.883044 1.57E−05 ENSG00000176108 CHMP6 0.72476 1.61E−05 ENSG00000155363 MOV10 −0.57468 1.62E−05 ENSG00000147206 NXF3 0.54415 1.63E−05 ENSG00000089693 MLF2 0.508934 1.64E−05 ENSG00000139174 PRICKLE1 −1.53659 1.64E−05 ENSG00000117091 CD48 0.660172 1.64E−05 ENSG00000109861 CTSC 0.533139 1.65E−05 ENSG00000132142 −0.52366 1.67E−05 ENSG00000100299 ARSA 0.742688 1.67E−05 ENSG00000042493 CAPG 0.628364 1.68E−05 ENSG00000034152 MAP2K3 0.570915 1.71E−05 ENSG00000139572 GPR84 1.058139 1.71E−05 ENSG00000142089 IFITM3 −0.80584 1.73E−05 ENSG00000204386 NEU1 0.625283 1.76E−05 ENSG00000079156 OSBPL6 −0.63973 1.76E−05 ENSG00000197381 ADARB1 0.752805 1.77E−05 ENSG00000126246 IGFLR1 1.223056 1.80E−05 ENSG00000168993 CPLX1 1.108348 1.81E−05 ENSG00000174804 FZD4 −1.61854 1.83E−05 ENSG00000070371 CLTCL1 0.824427 1.85E−05 ENSG00000211450 C11orf31 0.684084 1.85E−05 ENSG00000119138 KLF9 0.679608 1.87E−05 ENSG00000090612 ZNF268 −0.57165 1.88E−05 ENSG00000106153 CHCHD2 0.52037 1.88E−05 ENSG00000131323 TRAF3 0.580253 1.88E−05 ENSG00000175567 UCP2 0.488792 1.89E−05 ENSG00000109103 UNC119 0.600254 1.96E−05 ENSG00000196693 ZNF33B −0.58917 1.98E−05 ENSG00000137177 KIF13A −0.66409 2.00E−05 ENSG00000136840 ST6GALNAC4 0.739593 2.01E−05 ENSG00000162910 MRPL55 0.727342 2.02E−05 ENSG00000259020 0.680466 2.05E−05 ENSG00000271975 −0.91736 2.10E−05 ENSG00000130675 MNX1 0.908674 2.11E−05 ENSG00000148343 FAM73B 0.620398 2.12E−05 ENSG00000227205 0.936053 2.13E−05 ENSG00000002587 HS3ST1 −1.37011 2.16E−05 ENSG00000133317 LGALS12 0.874859 2.18E−05 ENSG00000165646 SLC18A2 −0.63478 2.22E−05 ENSG00000180044 C3orf80 −0.72053 2.25E−05 ENSG00000100401 RANGAP1 0.52374 2.29E−05 ENSG00000138821 SLC39A8 0.62848 2.30E−05 ENSG00000105472 CLEC11A 0.651568 2.31E−05 ENSG00000167535 CACNB3 −0.77752 2.31E−05 ENSG00000162783 IER5 0.628289 2.35E−05 ENSG00000134318 ROCK2 −0.51339 2.36E−05 ENSG00000110218 PANX1 −0.67842 2.37E−05 ENSG00000132359 RAP1GAP2 −0.7299 2.37E−05 ENSG00000124766 SOX4 −0.67184 2.37E−05 ENSG00000188636 LDOC1L −0.5971 2.39E−05 ENSG00000164733 CTSB 0.53478 2.40E−05 ENSG00000198399 ITSN2 −0.50327 2.40E−05 ENSG00000198643 FAM3D −1.48797 2.43E−05 ENSG00000160791 CCR5 1.024096 2.46E−05 ENSG00000128524 ATP6V1F 0.542137 2.52E−05 ENSG00000164897 TMUB1 0.89267 2.55E−05 ENSG00000141504 SAT2 0.716065 2.55E−05 ENSG00000196865 NHLRC2 −0.57136 2.55E−05 ENSG00000185420 SMYD3 −0.53766 2.56E−05 ENSG00000104880 ARHGEF18 0.617396 2.61E−05 ENSG00000247774 PCED1B-AS1 1.041996 2.66E−05 ENSG00000105374 NKG7 0.655033 2.68E−05 ENSG00000166794 PPIB 0.515567 2.77E−05 ENSG00000175414 ARL10 −1.64145 2.77E−05 ENSG00000006451 RALA −0.53846 2.81E−05 ENSG00000128268 MGAT3 0.915313 2.81E−05 ENSG00000197858 GPAA1 0.659863 2.81E−05 ENSG00000256234 1.633152 2.84E−05 ENSG00000062822 POLD1 0.687233 2.85E−05 ENSG00000140284 SLC27A2 0.780945 2.85E−05 ENSG00000073008 PVR 0.701404 2.86E−05 ENSG00000178217 SH2D4B 1.37417 2.90E−05 ENSG00000168350 DEGS2 −1.1947 2.94E−05 ENSG00000230195 −0.98485 2.96E−05 ENSG00000244331 0.725641 2.97E−05 ENSG00000133030 MPRIP −0.60835 2.99E−05 ENSG00000149212 SESN3 0.803936 3.03E−05 ENSG00000122515 ZMIZ2 0.602262 3.04E−05 ENSG00000099992 TBC1D10A 1.039586 3.06E−05 ENSG00000164088 PPM1M 0.677662 3.06E−05 ENSG00000196247 ZNF107 −0.67754 3.06E−05 ENSG00000113303 BTNL8 1.489582 3.06E−05 ENSG00000063176 SPHK2 0.728562 3.07E−05 ENSG00000111912 NCOA7 −0.59186 3.08E−05 ENSG00000169738 DCXR 0.547218 3.09E−05 ENSG00000186010 NDUFA13 0.753459 3.10E−05 ENSG00000167646 DNAAF3 0.72244 3.12E−05 ENSG00000197442 MAP3K5 −0.58705 3.13E−05 ENSG00000137509 PRCP 0.49777 3.15E−05 ENSG00000197312 DDI2 −0.51298 3.16E−05 ENSG00000184465 WDR27 −0.6776 3.19E−05 ENSG00000064225 ST3GAL6 0.570774 3.19E−05 ENSG00000179348 GATA2 0.583271 3.19E−05 ENSG00000120262 CCDC170 −1.39913 3.22E−05 ENSG00000185862 EVI2B 0.50731 3.25E−05 ENSG00000178802 MPI −0.55868 3.36E−05 ENSG00000127334 DYRK2 −0.53801 3.62E−05 ENSG00000136231 IGF2BP3 0.513755 3.65E−05 ENSG00000183166 CALN1 −1.01932 3.69E−05 ENSG00000178605 GTPBP6 0.749561 3.71E−05 ENSG00000178719 GRINA 0.649232 3.71E−05 ENSG00000079432 CIC 0.622897 3.85E−05 ENSG00000108106 UBE2S 1.112414 3.90E−05 ENSG00000138639 ARHGAP24 1.069599 3.91E−05 ENSG00000166575 TMEM135 −0.63597 3.91E−05 ENSG00000197506 SLC28A3 0.794783 3.94E−05 ENSG00000211689 TARP 0.676758 3.99E−05 ENSG00000118046 STK11 0.526271 3.99E−05 ENSG00000169242 EFNA1 −1.32565 4.01E−05 ENSG00000189013 KIR2DL4 1.266654 4.01E−05 ENSG00000169100 SLC25A6 0.474919 4.08E−05 ENSG00000105701 FKBP8 0.552166 4.09E−05 ENSG00000198795 ZNF521 −0.93115 4.10E−05 ENSG00000040933 INPP4A 0.60308 4.10E−05 ENSG00000164684 ZNF704 1.511661 4.13E−05 ENSG00000079277 MKNK1 0.58402 4.14E−05 ENSG00000176973 FAM89B 0.800335 4.14E−05 ENSG00000065308 TRAM2 −0.54762 4.15E−05 ENSG00000169136 ATF5 0.649429 4.19E−05 ENSG00000126005 0.533586 4.25E−05 ENSG00000166091 CMTM5 −1.44426 4.25E−05 ENSG00000150337 FCGR1A 1.039571 4.28E−05 ENSG00000122490 PQLC1 0.584723 4.29E−05 ENSG00000183741 CBX6 0.56015 4.30E−05 ENSG00000101474 APMAP 0.485705 4.30E−05 ENSG00000157881 PANK4 0.677743 4.38E−05 ENSG00000180574 −0.52105 4.42E−05 ENSG00000080298 RFX3 −0.94968 4.45E−05 ENSG00000123933 MXD4 0.517144 4.47E−05 ENSG00000162032 SPSB3 0.685119 4.49E−05 ENSG00000257017 HP 1.140175 4.50E−05 ENSG00000079313 REXO1 0.60587 4.52E−05 ENSG00000166106 ADAMTS15 1.281952 4.54E−05 ENSG00000158292 GPR153 0.958735 4.61E−05 ENSG00000135899 SP110 −0.69205 4.64E−05 ENSG00000168334 XIRP1 −1.22694 4.64E−05 ENSG00000196961 AP2A1 0.546074 4.66E−05 ENSG00000109680 TBC1D19 −1.15776 4.68E−05 ENSG00000116106 EPHA4 −1.55652 4.69E−05 ENSG00000198346 ZNF813 −0.6291 4.72E−05 ENSG00000071282 LMCD1 −0.92408 4.76E−05 ENSG00000156860 FBRS 0.535141 4.78E−05 ENSG00000181751 C5orf30 −0.58269 4.83E−05 ENSG00000173193 PARP14 −0.75064 4.86E−05 ENSG00000159788 RGS12 0.602227 4.88E−05 ENSG00000067225 PKM 0.445392 4.90E−05 ENSG00000018189 RUFY3 −0.67541 4.96E−05 ENSG00000175416 CLTB 0.592996 5.18E−05 ENSG00000136213 CHST12 0.866774 5.22E−05 ENSG00000196867 ZFP28 −1.11689 5.24E−05 ENSG00000165512 ZNF22 −0.55599 5.32E−05 ENSG00000197070 ARRDC1 0.578062 5.32E−05 ENSG00000100628 ASB2 1.236625 5.33E−05 ENSG00000239809 0.620555 5.36E−05 ENSG00000137496 IL18BP 0.690293 5.36E−05 ENSG00000249550 LINC01234 −1.27392 5.38E−05 ENSG00000107404 DVL1 0.684147 5.42E−05 ENSG00000085832 EPS15 −0.47256 5.43E−05 ENSG00000162929 KIAA1841 −0.7427 5.45E−05 ENSG00000167508 MVD 0.663406 5.46E−05 ENSG00000070081 NUCB2 0.538003 5.65E−05 ENSG00000196628 TCF4 −0.61592 5.67E−05 ENSG00000120306 CYSTM1 0.661474 5.73E−05 ENSG00000166002 SMCO4 0.860847 5.73E−05 ENSG00000205476 CCDC85C 0.836118 5.75E−05 ENSG00000131116 ZNF428 0.610412 5.76E−05 ENSG00000186469 GNG2 −1.07584 5.85E−05 ENSG00000164953 TMEM67 −1.03093 5.87E−05 ENSG00000233328 0.494941 5.89E−05 ENSG00000115350 POLE4 0.629516 5.91E−05 ENSG00000105483 CARD8 −0.48211 6.20E−05 ENSG00000140961 OSGIN1 1.00531 6.24E−05 ENSG00000076924 XAB2 0.522499 6.26E−05 ENSG00000265273 0.537621 6.35E−05 ENSG00000205138 SDHAF1 0.676309 6.37E−05 ENSG00000173218 VANGL1 −0.57197 6.42E−05 ENSG00000151882 CCL28 −0.65743 6.48E−05 ENSG00000172164 SNTB1 0.487476 6.48E−05 ENSG00000225674 −0.56325 6.48E−05 ENSG00000147324 MFHAS1 −0.60146 6.53E−05 ENSG00000169231 THBS3 −0.69409 6.59E−05 ENSG00000105518 TMEM205 0.603499 6.61E−05 ENSG00000138764 CCNG2 0.643214 6.62E−05 ENSG00000100162 CENPM 0.713866 6.71E−05 ENSG00000131797 CLUHP3 −1.38346 6.74E−05 ENSG00000167468 GPX4 0.477497 6.82E−05 ENSG00000108639 SYNGR2 0.486426 6.85E−05 ENSG00000104903 LYL1 0.523094 6.88E−05 ENSG00000030582 GRN 0.650924 6.95E−05 ENSG00000116741 RGS2 0.911476 6.95E−05 ENSG00000026950 BTN3A1 −0.73557 7.02E−05 ENSG00000106258 CYP3A5 1.500546 7.06E−05 ENSG00000198677 TTC37 −0.47883 7.12E−05 ENSG00000148335 NTMT1 0.56768 7.15E−05 ENSG00000253159 PCDHGA12 −1.22918 7.21E−05 ENSG00000120756 PLS1 1.302973 7.23E−05 ENSG00000166896 ATP23 0.62096 7.23E−05 ENSG00000169184 MN1 −0.49585 7.33E−05 ENSG00000107872 FBXL15 0.95857 7.33E−05 ENSG00000105726 ATP13A1 0.540112 7.34E−05 ENSG00000198721 ECI2 −0.67502 7.34E−05 ENSG00000163235 TGFA 1.065857 7.41E−05 ENSG00000198053 SIRPA 0.571393 7.43E−05 ENSG00000174099 MSRB3 1.185439 7.51E−05 ENSG00000147168 IL2RG 0.634018 7.53E−05 ENSG00000138078 PREPL −0.48568 7.60E−05 ENSG00000167513 CDT1 0.691377 7.60E−05 ENSG00000103249 CLCN7 0.546952 7.64E−05 ENSG00000176533 GNG7 −0.5781 7.66E−05 ENSG00000175183 CSRP2 −1.05882 7.75E−05 ENSG00000196458 ZNF605 −0.60546 7.89E−05 ENSG00000227191 0.702837 7.92E−05 ENSG00000070718 AP3M2 −0.67097 7.98E−05 ENSG00000166165 CKB 0.678893 8.04E−05 ENSG00000184897 H1FX 0.671421 8.07E−05 ENSG00000132613 MTSS1L 0.673854 8.16E−05 ENSG00000268734 1.347743 8.16E−05 ENSG00000141524 TMC6 0.547438 8.25E−05 ENSG00000174469 CNTNAP2 −0.96357 8.27E−05 ENSG00000245648 LOC101928100 1.561093 8.57E−05 ENSG00000154099 DNAAF1 1.577755 8.77E−05 ENSG00000102445 KIAA0226L 1.369751 8.83E−05 ENSG00000189089 −1.52592 8.83E−05 ENSG00000127863 TNFRSF19 −1.48607 8.87E−05 ENSG00000090581 GNPTG 0.568088 9.07E−05 ENSG00000119522 DENND1A 0.515137 9.26E−05 ENSG00000179085 DPM3 0.908285 9.31E−05 ENSG00000261211 1.426066 9.31E−05 ENSG00000132334 PTPRE 0.582226 9.43E−05 ENSG00000108294 0.458921 9.43E−05 ENSG00000083799 CYLD 0.564817 9.44E−05 ENSG00000102879 CORO1A 0.573127 9.58E−05 ENSG00000174233 ADCY6 −0.62678 9.58E−05 ENSG00000123384 LRP1 1.220295 9.62E−05 ENSG00000108984 MAP2K6 −1.46491 9.72E−05 ENSG00000138399 FASTKD1 −0.49788 9.77E−05 ENSG00000122359 ANXA11 0.461851 9.78E−05 ENSG00000141552 ANAPC11 0.621909 9.78E−05 ENSG00000099203 TMED1 0.611044 1.00E−04 ENSG00000181631 P2RY13 0.906771 1.00E−04 ENSG00000115255 REEP6 0.738307 0.0001 ENSG00000091879 ANGPT2 −1.26248 0.000101 ENSG00000167797 CDK2AP2 0.570809 0.000101 ENSG00000237649 KIFC1 0.508432 0.000101 ENSG00000204681 GABBR1 −0.93439 0.000104 ENSG00000134780 DAGLA 1.06719 0.000105 ENSG00000149927 DOC2A −1.04553 0.000105 ENSG00000172922 RNASEH2C 0.597996 0.000105 ENSG00000204498 NFKBIL1 0.755858 0.000106 ENSG00000172932 ANKRD13D 0.490257 0.000107 ENSG00000189068 VSTM1 0.777405 0.000108 ENSG00000183309 ZNF623 −0.59613 0.000108 ENSG00000107537 PHYH −0.74001 0.000108 ENSG00000077420 APBB1IP −0.52113 0.000108 ENSG00000128000 ZNF780B −0.58372 0.000108 ENSG00000119559 C19orf25 0.55608 0.000109 ENSG00000102048 ASB9 −0.76982 0.00011 ENSG00000171700 RGS19 0.492829 0.00011 ENSG00000100726 TELO2 0.65902 0.000111 ENSG00000177105 RHOG 0.497779 0.000113 ENSG00000124762 CDKN1A 0.46046 0.000114 ENSG00000076984 MAP2K7 0.524319 0.000116 ENSG00000105402 NAPA 0.52981 0.000116 ENSG00000105750 ZNF85 −0.66537 0.000117 ENSG00000138172 CALHM2 −0.64272 0.000118 ENSG00000121481 RNF2 −0.48131 0.000119 ENSG00000127952 STYXL1 −0.53907 0.000121 ENSG00000105642 KCNN1 −0.58045 0.000121 ENSG00000112062 MAPK14 0.44798 0.000121 ENSG00000126432 PRDX5 0.455182 0.000121 ENSG00000206557 TRIM71 −0.62279 0.000123 ENSG00000167962 ZNF598 0.621218 0.000124 ENSG00000125534 PPDPF 0.579431 0.000125 ENSG00000128059 PPAT −0.56192 0.000125 ENSG00000137802 MAPKBP1 −0.61827 0.000126 ENSG00000123064 DDX54 0.509124 0.000126 ENSG00000124920 MYRF 0.847488 0.000127 ENSG00000122642 FKBP9 −0.68746 0.000129 ENSG00000233968 LOC101928834 −1.3292 0.000132 ENSG00000140859 KIFC3 0.800731 0.000134 ENSG00000110400 NECTIN1 1.108315 0.000135 ENSG00000127445 PIN1 0.561054 0.000136 ENSG00000155465 SLC7A7 1.011231 0.000136 ENSG00000070413 DGCR2 0.545089 0.000136 ENSG00000132024 CC2D1A 0.58398 0.00014 ENSG00000253981 1.421516 0.00014 ENSG00000175602 CCDC85B 1.027114 0.000141 ENSG00000197321 SVIL 0.5705 0.000141 ENSG00000125835 SNRPB 0.481389 0.000141 ENSG00000103485 QPRT −0.55054 0.000141 ENSG00000137713 PPP2R1B −0.47722 0.000143 ENSG00000140990 NDUFB10 0.478178 0.000146 ENSG00000221963 APOL6 −0.67449 0.000147 ENSG00000099817 POLR2E 0.521823 0.000147 ENSG00000130305 NSUN5 0.663921 0.000148 ENSG00000169764 UGP2 0.452835 0.00015 ENSG00000069020 MAST4 −0.89745 0.00015 ENSG00000127419 TMEM175 0.749343 0.00015 ENSG00000198363 ASPH −0.48054 0.000151 ENSG00000112033 PPARD 0.790925 0.000152 ENSG00000173269 MMRN2 −0.78373 0.000153 ENSG00000197956 S100A6 −0.91491 0.000157 ENSG00000163221 S100A12 1.452638 0.000158 ENSG00000126790 L3HYPDH −0.86954 0.000159 ENSG00000116127 ALMS1 −0.53676 0.00016 ENSG00000004059 ARF5 0.48212 0.00016 ENSG00000047365 ARAP2 0.644225 0.000161 ENSG00000125798 FOXA2 −1.46113 0.000161 ENSG00000268518 0.917333 0.000162 ENSG00000152556 PFKM −0.6627 0.000164 ENSG00000182326 CIS −0.79393 0.000165 ENSG00000028277 POU2F2 0.863364 0.000165 ENSG00000094916 CBX5 −0.4305 0.000165 ENSG00000145494 NDUFS6 0.557326 0.000166 ENSG00000102575 ACP5 1.369974 0.000166 ENSG00000132846 ZBED3 −0.5064 0.000167 ENSG00000020181 ADGRA2 −0.91048 0.000167 ENSG00000163393 SLC22A15 0.673426 0.000168 ENSG00000167723 TRPV3 1.264817 0.000168 ENSG00000187116 LILRA5 1.121746 0.000171 ENSG00000105298 CACTIN 0.568822 0.000172 ENSG00000138801 PAPSS1 0.607751 0.000172 ENSG00000125648 SLC25A23 −0.54686 0.000175 ENSG00000218175 0.468903 0.000175 ENSG00000167210 LOXHD1 −0.56777 0.000176 ENSG00000165983 PTER −0.48057 0.000178 ENSG00000160404 TOR2A 0.519308 0.000185 ENSG00000145391 SETD7 −0.58311 0.000186 ENSG00000162144 CYB561A3 0.484682 0.000188 ENSG00000120949 TNFRSF8 0.783945 0.000189 ENSG00000065268 WDR18 0.549038 0.00019 ENSG00000160213 CSTB 0.501861 0.000192 ENSG00000124496 TRERF1 0.514726 0.000193 ENSG00000168476 REEP4 0.608636 0.000194 ENSG00000106009 BRAT1 0.543251 0.000194 ENSG00000122741 DCAF10 −0.49358 0.000195 ENSG00000112759 SLC29A1 0.546862 0.000196 ENSG00000233355 CHRM3-AS2 1.165979 0.0002 ENSG00000079616 KIF22 0.466913 0.000205 ENSG00000181619 GPR135 −0.88344 0.000206 ENSG00000106537 TSPAN13 −0.72556 0.000207 ENSG00000239713 APOBEC3G −0.76249 0.000208 ENSG00000105366 SIGLEC8 1.068339 0.000208 ENSG00000144485 HES6 0.802821 0.000212 ENSG00000170638 TRABD 0.555254 0.000215 ENSG00000124785 NRN1 0.476534 0.000217 ENSG00000182568 SATB1 −0.43865 0.000217 ENSG00000152689 RASGRP3 −0.56673 0.000218 ENSG00000166851 PLK1 0.469851 0.000219 ENSG00000100154 TTC28 −1.03308 0.00022 ENSG00000115825 PRKD3 −0.50332 0.000221 ENSG00000229425 −1.45242 0.000221 ENSG00000100311 PDGFB 1.475228 0.000224 ENSG00000167578 RAB4B 0.782874 0.000225 ENSG00000169692 AGPAT2 0.594086 0.000225 ENSG00000100003 SEC14L2 1.110019 0.000227 ENSG00000198130 HIBCH −0.57235 0.000227 ENSG00000173327 MAP3K11 0.55772 0.000232 ENSG00000197785 ATAD3A 0.608867 0.000233 ENSG00000113448 PDE4D −0.63378 0.000233 ENSG00000002822 MAD1L1 0.561865 0.000236 ENSG00000126254 RBM42 0.54281 0.000237 ENSG00000238243 OR2W3 −0.92475 0.000238 ENSG00000130560 UBAC1 0.490115 0.000239 ENSG00000144647 POMGNT2 0.899715 0.000242 ENSG00000163497 FEV −1.40401 0.000242 ENSG00000136653 0.495147 0.000244 ENSG00000204406 MBD5 −0.56365 0.000244 ENSG00000168386 FILIP1L 0.563293 0.000245 ENSG00000177200 CHD9 −0.45883 0.000245 ENSG00000171161 ZNF672 0.541072 0.000246 ENSG00000236081 ELFN1-AS1 0.79783 0.000248 ENSG00000186111 PIP5K1C 0.48726 0.000251 ENSG00000185386 MAPK11 −0.66694 0.000252 ENSG00000082438 COBLL1 −0.55954 0.000254 ENSG00000064195 DLX3 −1.0758 0.000255 ENSG00000242013 −0.89473 0.000256 ENSG00000123836 PFKFB2 −0.82761 0.000257 ENSG00000124098 FAM210B −0.65455 0.000257 ENSG00000174307 PHLDA3 0.603662 0.000259 ENSG00000157021 −0.88467 0.000259 ENSG00000226608 0.506789 0.000259 ENSG00000227097 0.442066 0.000266 ENSG00000153933 DGKE −0.64583 0.000267 ENSG00000185168 1.03852 0.000267 ENSG00000100908 EMC9 0.707632 0.000268 ENSG00000213563 C8orf82 0.690007 0.000268 ENSG00000160991 ORAI2 0.526026 0.000269 ENSG00000136147 PHF11 −0.51766 0.000271 ENSG00000254415 SIGLEC14 0.568649 0.000272 ENSG00000015413 DPEP1 0.634544 0.000272 ENSG00000149503 INCENP 0.564919 0.000273 ENSG00000136436 CALCOCO2 −0.46793 0.000274 ENSG00000186635 ARAP1 0.583946 0.000277 ENSG00000124406 ATP8A1 −0.54356 0.000278 ENSG00000198538 ZNF28 −0.58072 0.000279 ENSG00000116833 NR5A2 −1.44632 0.000281 ENSG00000167969 ECU 0.646621 0.000281 ENSG00000104047 DTWD1 −0.58161 0.000283 ENSG00000127666 TICAM1 0.632663 0.000283 ENSG00000107438 PDLIM1 −0.48287 0.000286 ENSG00000051009 FAM160A2 0.568221 0.000286 ENSG00000133142 TCEAL4 −0.49098 0.000287 ENSG00000162076 FLYWCH2 0.718206 0.000292 ENSG00000182240 BACE2 0.943716 0.000293 ENSG00000187688 TRPV2 −0.63588 0.000296 ENSG00000162585 FAAP20 0.704097 0.000298 ENSG00000244486 SCARF2 1.333805 0.000298 ENSG00000136404 TM6SF1 0.655498 0.000307 ENSG00000104897 SF3A2 0.503912 0.000308 ENSG00000262370 0.603079 0.000309 ENSG00000161179 YDJC 0.553317 0.000312 ENSG00000068001 HYAL2 0.547502 0.000313 ENSG00000008130 NADK 0.451339 0.000313 ENSG00000228203 RNF144A-AS1 0.65372 0.000313 ENSG00000171101 SIGLEC17P 0.915321 0.000317 ENSG00000263753 LINC00667 −0.65749 0.000321 ENSG00000234444 ZNF736 −0.54617 0.000324 ENSG00000260273 −1.20762 0.000325 ENSG00000131584 ACAP3 0.611879 0.000327 ENSG00000135919 SERPINE2 1.224518 0.000328 ENSG00000177706 FAM20C 0.535706 0.000328 ENSG00000235297 0.472837 0.000328 ENSG00000130340 SNX9 0.533746 0.000329 ENSG00000181104 F2R −0.55051 0.000332 ENSG00000116786 PLEKHM2 0.471645 0.000333 ENSG00000185278 ZBTB37 −0.5311 0.000334 ENSG00000240972 MIF 0.631524 0.000336 ENSG00000047932 GOPC −0.47954 0.000337 ENSG00000147813 NAPRT 0.577225 0.000339 ENSG00000180992 MRPL14 0.502982 0.00034 ENSG00000167772 ANGPTL4 1.381012 0.000344 ENSG00000100271 TTLL1 −0.77187 0.000346 ENSG00000122778 KIAA1549 −0.5406 0.000347 ENSG00000135341 MAP3K7 −0.4365 0.000351 ENSG00000110880 CORO1C −0.44355 0.000352 ENSG00000139132 FGD4 0.708359 0.000355 ENSG00000132005 RFX1 0.717412 0.000355 ENSG00000113749 HRH2 0.688071 0.000356 ENSG00000105135 ILVBL 0.554801 0.000357 ENSG00000156030 ELMSAN1 −0.44864 0.000358 ENSG00000250337 LINC01021 −0.61142 0.000358 ENSG00000165804 ZNF219 1.168595 0.000358 ENSG00000184281 TSSC4 0.606634 0.000358 ENSG00000204160 ZDHHC18 0.630693 0.00036 ENSG00000234985 0.751918 0.000363 ENSG00000070190 DAPP1 0.721823 0.000365 ENSG00000137628 DDX60 −0.73641 0.000366 ENSG00000214688 C10orf105 −1.27288 0.000366 ENSG00000214530 STARD10 0.95832 0.000367 ENSG00000103496 STX4 0.516925 0.000369 ENSG00000151883 PARP8 −0.48077 0.000373 ENSG00000120784 ZFP30 −0.72832 0.000373 ENSG00000133256 PDE6B −1.23146 0.000373 ENSG00000121680 PEX16 0.54961 0.000375 ENSG00000126461 SCAF1 0.504205 0.000376 ENSG00000196268 ZNF493 −0.5917 0.000377 ENSG00000196924 FLNA 0.499115 0.000382 ENSG00000103335 PIEZO1 0.486609 0.000383 ENSG00000145734 BDP1 −0.53892 0.000383 ENSG00000122482 ZNF644 −0.42572 0.000383 ENSG00000003393 ALS2 0.531151 0.000387 ENSG00000182220 ATP6AP2 0.459258 0.000387 ENSG00000005059 CCDC109B −1.09325 0.000396 ENSG00000010310 GIPR 1.015362 0.000396 ENSG00000236480 0.559287 0.000396 ENSG00000181381 DDX60L −0.47928 0.000396 ENSG00000001084 GCLC −0.51147 0.000404 ENSG00000131016 AKAP12 −0.61368 0.000405 ENSG00000244879 −0.5996 0.000405 ENSG00000104852 SNRNP70 0.420676 0.000408 ENSG00000132182 NUP210 0.473831 0.000419 ENSG00000103266 STUB1 0.508948 0.000419 ENSG00000104805 NUCB1 0.450245 0.000419 ENSG00000160226 C21orf2 0.762972 0.000419 ENSG00000099250 NRP1 −0.63872 0.000425 ENSG00000196172 ZNF681 −0.64629 0.000426 ENSG00000124613 ZNF391 −0.94058 0.000427 ENSG00000179241 LDLRAD3 −0.99107 0.00043 ENSG00000164442 CITED2 0.463656 0.00043 ENSG00000166311 SMPD1 0.63345 0.00043 ENSG00000147123 NDUFB11 0.458988 0.000437 ENSG00000130726 TRIM28 0.411242 0.000437 ENSG00000163823 CCR1 0.598944 0.000441 ENSG00000165633 VSTM4 1.328238 0.000442 ENSG00000172530 BANP 0.864042 0.000445 ENSG00000144026 ZNF514 −0.65456 0.000448 ENSG00000097033 SH3GLB1 −0.42863 0.000448 ENSG00000100241 SBF1 0.522513 0.00045 ENSG00000135535 CD164 −0.47103 0.000458 ENSG00000110367 DDX6 −0.45527 0.000458 ENSG00000013288 MAN2B2 0.539162 0.00046 ENSG00000142945 KIF2C 0.475702 0.00046 ENSG00000159200 RCAN1 0.663092 0.00046 ENSG00000110057 UNC93B1 0.598065 0.000465 ENSG00000153774 CFDP1 −0.47373 0.000465 ENSG00000134030 CTIF 0.608667 0.000471 ENSG00000054277 OPN3 0.504096 0.000475 ENSG00000116574 RHOU 0.560702 0.000476 ENSG00000138798 EGF −0.82808 0.000477 ENSG00000167792 NDUFV1 0.447105 0.000478 ENSG00000137818 RPLP1 0.400168 0.00048 ENSG00000188971 0.506609 0.000482 ENSG00000166825 ANPEP 0.456041 0.000483 ENSG00000173930 SLCO4C1 0.512207 0.000483 ENSG00000100522 GNPNAT1 −0.48697 0.000484 ENSG00000162944 RFTN2 −0.97868 0.000484 ENSG00000186088 GSAP −1.08397 0.000484 ENSG00000184083 FAM120C −0.64454 0.000488 ENSG00000138434 SSFA2 −0.55753 0.00049 ENSG00000167992 VWCE 1.215177 0.000491 ENSG00000113739 STC2 −0.97543 0.000493 ENSG00000150347 ARID5B −0.57116 0.000494 ENSG00000162702 ZNF281 −0.44997 0.000496 ENSG00000102781 KATNAL1 −0.69351 0.0005 ENSG00000175550 DRAP1 0.507697 0.0005 ENSG00000126759 CFP 0.579756 0.000503 ENSG00000172466 ZNF24 −0.41101 0.000503 ENSG00000141959 PFKL 0.480769 0.000504 ENSG00000177425 PAWR −0.473 0.000504 ENSG00000125454 SLC25A19 0.527979 0.000507 ENSG00000160410 SHKBP1 0.462101 0.000507 ENSG00000106560 GIMAP2 −0.62701 0.000512 ENSG00000178852 EFCAB13 −0.89069 0.000515 ENSG00000256804 0.74139 0.000516 ENSG00000126453 BCL2L12 0.546373 0.000516 ENSG00000236365 −1.04559 0.000516 ENSG00000105501 SIGLEC5 0.724087 0.00052 ENSG00000198648 STK39 −0.61228 0.00052 ENSG00000087086 FTL 0.471882 0.000523 ENSG00000123595 RAB9A 0.559127 0.000523 ENSG00000132965 ALOX5AP 0.578147 0.000523 ENSG00000142330 CAPN10 0.60237 0.000523 ENSG00000005961 ITGA2B 0.413336 0.000525 ENSG00000256087 ZNF432 −0.57464 0.000533 ENSG00000171443 ZNF524 0.771148 0.000534 ENSG00000130741 EIF2S3 −0.39995 0.000536 ENSG00000108021 FAM208B −0.47803 0.000536 ENSG00000178896 EXOSC4 0.623069 0.000538 ENSG00000120586 −0.57378 0.000539 ENSG00000123609 NMI −0.43859 0.000539 ENSG00000167703 SLC43A2 1.208569 0.000539 ENSG00000068137 PLEKHH3 0.965864 0.000541 ENSG00000198829 SUCNR1 0.441758 0.000541 ENSG00000019144 PHLDB1 0.630382 0.000549 ENSG00000035115 SH3YL1 −0.5485 0.000551 ENSG00000108100 CCNY −0.4216 0.000551 ENSG00000037280 FLT4 0.580153 0.000551 ENSG00000214456 PLIN5 1.132891 0.000551 ENSG00000131023 LATS1 −0.44523 0.000554 ENSG00000125354 42619 −0.41851 0.000555 ENSG00000076770 MBNL3 −0.49255 0.000565 ENSG00000185869 ZNF829 −1.10346 0.000569 ENSG00000204130 RUFY2 −0.58009 0.000572 ENSG00000043462 LCP2 0.430626 0.000579 ENSG00000183690 EFHC2 −0.74787 0.000586 ENSG00000147862 NFIB −0.87586 0.000593 ENSG00000244482 LILRB3 1.404449 0.000598 ENSG00000254470 AP5B1 0.566816 0.000602 ENSG00000099814 CEP170B 0.732245 0.000604 ENSG00000163412 EIF4E3 1.209182 0.000604 ENSG00000228300 C19orf24 0.674854 0.000604 ENSG00000198482 ZNF808 −0.58618 0.000608 ENSG00000189283 FHIT −1.25251 0.000609 ENSG00000148400 NOTCH1 0.47124 0.000611 ENSG00000183011 NAA38 0.550217 0.000611 ENSG00000163132 MSX1 1.288461 0.000617 ENSG00000184967 NOC4L 0.55577 0.00062 ENSG00000122223 CD244 0.414801 0.000621 ENSG00000117480 FAAH 0.902992 0.000622 ENSG00000075702 WDR62 0.54384 0.000625 ENSG00000116017 ARID3A 0.589403 0.000628 ENSG00000126705 AHDC1 0.604974 0.000629 ENSG00000100290 BIK −1.25071 0.000633 ENSG00000253352 −0.40937 0.000644 ENSG00000163701 IL17RE −0.64863 0.000648 ENSG00000165806 CASP7 −0.47505 0.000648 ENSG00000168906 MAT2A −0.47917 0.000649 ENSG00000150681 RGS18 −0.43646 0.000651 ENSG00000144369 FAM171B −0.60348 0.000655 ENSG00000121741 ZMYM2 −0.41695 0.000656 ENSG00000135272 MDFIC 0.644442 0.000658 ENSG00000263264 0.990104 0.000663 ENSG00000007944 MYLIP 0.634059 0.000667 ENSG00000176148 TCP11L1 −0.75039 0.000671 ENSG00000151835 SACS −0.64052 0.000674 ENSG00000171451 DSEL −1.16818 0.000675 ENSG00000125652 ALKBH7 0.594963 0.000687 ENSG00000084093 REST −0.41867 0.000696 ENSG00000130592 LSP1 0.454146 0.000697 ENSG00000136205 TNS3 −0.69524 0.000697 ENSG00000159267 HLCS −0.60202 0.000705 ENSG00000107863 ARHGAP21 −0.55451 0.000706 ENSG00000169398 PTK2 −0.63438 0.000707 ENSG00000106266 SNX8 0.455695 0.000707 ENSG00000117450 PRDX1 −0.42383 0.000714 ENSG00000204519 ZNF551 −0.5088 0.00072 ENSG00000171476 HOPX 0.640409 0.000724 ENSG00000050767 COL23A1 0.727012 0.000725 ENSG00000140287 HDC 0.698419 0.000727 ENSG00000144589 STK11IP 0.457473 0.000727 ENSG00000101290 CDS2 −0.43254 0.000731 ENSG00000167657 DAPK3 0.528153 0.000731 ENSG00000225892 1.024993 0.000743 ENSG00000116260 QSOX1 0.575369 0.00075 ENSG00000141873 SLC39A3 0.509593 0.000754 ENSG00000075240 GRAMD4 0.48276 0.000761 ENSG00000089639 GMIP 0.473537 0.000763 ENSG00000105364 MRPL4 0.482827 0.000771 ENSG00000157637 SLC38A10 0.519398 0.000773 ENSG00000101916 TLR8 1.383468 0.000773 ENSG00000133250 ZNF414 0.819986 0.00078 ENSG00000135480 KRT7 1.352729 0.000791 ENSG00000111331 OAS3 −0.61463 0.000796 ENSG00000110852 CLEC2B −0.46644 0.000806 ENSG00000106804 C5 −0.75186 0.00081 ENSG00000148248 SURF4 0.398762 0.000811 ENSG00000135250 SRPK2 −0.42573 0.000812 ENSG00000105325 FZR1 0.491387 0.000813 ENSG00000141720 −0.43686 0.000816 ENSG00000101336 HCK 0.563036 0.000819 ENSG00000198780 FAM169A −0.69418 0.000823 ENSG00000136044 APPL2 −0.51677 0.000825 ENSG00000142694 EVA1B 0.91429 0.000826 ENSG00000148950 IMMP1L −0.71426 0.000833 ENSG00000130165 ELOF1 0.448993 0.000833 ENSG00000106785 TRIM14 0.44435 0.00084 ENSG00000012983 MAP4K5 −0.45786 0.000844 ENSG00000106268 NUDT1 0.577287 0.000844 ENSG00000198223 CSF2RA 0.447538 0.000847 ENSG00000132854 KANK4 −1.02185 0.000851 ENSG00000132205 EMILIN2 0.448409 0.000854 ENSG00000108582 CPD 0.464265 0.000858 ENSG00000219738 1.348254 0.00086 ENSG00000196782 MAML3 −0.61758 0.00087 ENSG00000198131 ZNF544 −0.51328 0.00087 ENSG00000138794 CASP6 −0.50421 0.000872 ENSG00000164405 UQCRQ 0.445166 0.000876 ENSG00000161513 FDXR 0.53231 0.000878 ENSG00000148334 PTGES2 0.497969 0.000885 ENSG00000102893 PHKB −0.41278 0.000896 ENSG00000109881 CCDC34 −0.60723 0.0009 ENSG00000101199 ARFGAP1 0.455006 0.000914 ENSG00000164880 INTS1 0.485775 0.000914 ENSG00000142920 AZIN2 1.246343 0.000921 ENSG00000104450 SPAG1 0.683714 0.000925 ENSG00000121406 ZNF549 −0.5285 0.000931 ENSG00000117174 ZNHIT6 −0.41796 0.000932 ENSG00000187189 TSPYL4 −0.46202 0.000933 ENSG00000035862 TIMP2 0.475982 0.000936 ENSG00000205021 1.197927 0.000937 ENSG00000169224 GCSAML −0.44261 0.000938 ENSG00000125148 MT2A 0.610147 0.000943 ENSG00000170089 LOC728554 −0.82192 0.000949 ENSG00000153721 CNKSR3 0.943662 0.000957 ENSG00000184293 CLECL1 −0.52535 0.000957 ENSG00000178761 FAM219B −0.43464 0.000966 ENSG00000154122 ANKH 0.704263 0.00097 ENSG00000152990 ADGRA3 −0.46578 0.000974 ENSG00000064601 CTSA 0.42457 0.000978 ENSG00000142546 NOSIP 0.475453 0.000979 ENSG00000142765 SYTL1 0.516391 0.000979 ENSG00000166971 AKTIP 0.895524 0.000979 ENSG00000198093 ZNF649 −0.51807 0.000991 ENSG00000134830 C5AR2 1.016659 0.000993 ENSG00000267041 ZNF850 −0.69391 0.000993 ENSG00000130734 ATG4D 0.595993 0.000998 ENSG00000262246 CORO7 0.52176 0.000998 ENSG00000215105 −0.49121 0.001008 ENSG00000176101 SSNA1 0.506812 0.001017 ENSG00000196352 CD55 0.497816 0.001018 ENSG00000169696 ASPSCR1 0.589909 0.001024 ENSG00000184840 TMED9 0.430041 0.001025 ENSG00000103490 PYCARD 0.480226 0.001032 ENSG00000125753 VASP 0.41356 0.001035 ENSG00000166289 PLEKHF1 0.73445 0.001039 ENSG00000110274 CEP164 0.474099 0.001046 ENSG00000069849 ATP1B3 0.426498 0.001049 ENSG00000141503 MINK1 0.486492 0.001051 ENSG00000053918 KCNQ1 0.649667 0.001063 ENSG00000085644 ZNF213 0.563649 0.001066 ENSG00000107140 TESK1 0.568618 0.001072 ENSG00000149781 FERMT3 0.4275 0.001074 ENSG00000101421 CHMP4B 0.406289 0.001084 ENSG00000111077 TNS2 −0.70649 0.001094 ENSG00000119986 AVPI1 0.897517 0.001096 ENSG00000117226 GBP3 −0.77455 0.001097 ENSG00000093010 COMT 0.478363 0.001102 ENSG00000144681 STAC 1.109719 0.001102 ENSG00000168884 TNIP2 0.489117 0.001102 ENSG00000123131 PRDX4 0.424827 0.001117 ENSG00000233846 0.552042 0.001117 ENSG00000213753 CENPBD1P1 0.474587 0.001118 ENSG00000003402 CFLAR 0.559216 0.001126 ENSG00000002330 BAD 0.693174 0.00113 ENSG00000162976 PQLC3 −0.52572 0.001143 ENSG00000131759 RARA 0.449251 0.001151 ENSG00000145431 PDGFC −0.49647 0.001159 ENSG00000124588 NQO2 0.534324 0.00116 ENSG00000121797 CCRL2 0.621939 0.001164 ENSG00000138336 TET1 −0.59771 0.001166 ENSG00000027869 SH2D2A 0.718002 0.001171 ENSG00000164292 RHOBTB3 −0.77482 0.001178 ENSG00000234420 ZNF37BP −0.49364 0.001178 ENSG00000090776 EFNB1 −0.47825 0.001179 ENSG00000197535 MYO5A 0.600822 0.001189 ENSG00000120217 CD274 1.331007 0.001195 ENSG00000077585 GPR137B 0.647973 0.001201 ENSG00000218418 −0.7172 0.001202 ENSG00000146192 FGD2 1.028052 0.001209 ENSG00000105401 CDC37 0.388875 0.001215 ENSG00000133639 BTG1 1.188902 0.001215 ENSG00000112787 FBRSL1 0.460934 0.00123 ENSG00000135241 PNPLA8 0.472153 0.001231 ENSG00000105464 GRIN2D 0.549313 0.001241 ENSG00000163513 TGFBR2 0.510914 0.001247 ENSG00000101220 C20orf27 0.469093 0.001265 ENSG00000186017 ZNF566 −0.54973 0.001265 ENSG00000139405 RITA1 0.437172 0.001267 ENSG00000079950 STX7 −0.4922 0.001291 ENSG00000106624 AEBP1 −1.19543 0.001291 ENSG00000111885 MAN1A1 −1.09269 0.001291 ENSG00000147804 SLC39A4 0.649216 0.001294 ENSG00000087301 TXNDC16 −0.51265 0.001307 ENSG00000100263 RHBDD3 0.532254 0.00132 ENSG00000128487 SPECC1 −0.46484 0.001322 ENSG00000141522 ARHGDIA 0.492126 0.001322 ENSG00000183508 FAM46C 0.729799 0.001322 ENSG00000066933 MYO9A −0.49511 0.001323 ENSG00000174004 NRROS 0.473844 0.001323 ENSG00000068323 TFE3 0.445912 0.001325 ENSG00000144677 CTDSPL 0.772086 0.00133 ENSG00000139318 DUSP6 −0.42918 0.001331 ENSG00000259207 ITGB3 −1.1127 0.001333 ENSG00000162636 FAM102B −0.63152 0.001335 ENSG00000069712 KIAA1107 −1.07716 0.001345 ENSG00000103494 RPGRIP1L −0.67656 0.001355 ENSG00000148154 UGCG 0.910148 0.001355 ENSG00000143537 ADAM15 0.451583 0.001357 ENSG00000187266 EPOR 1.046103 0.001364 ENSG00000136490 LIMD2 0.42271 0.001368 ENSG00000087586 AURKA 0.430469 0.00137 ENSG00000243679 0.837772 0.00137 ENSG00000140995 DEF8 0.468991 0.001381 ENSG00000182500 0.459565 0.001391 ENSG00000186862 PDZD7 −0.9651 0.001409 ENSG00000127540 UQCR11 0.440704 0.001414 ENSG00000162244 RPL29 0.400347 0.001414 ENSG00000128185 DGCR6L 0.620174 0.001434 ENSG00000111665 CDCA3 0.529643 0.001435 ENSG00000267287 1.307994 0.001452 ENSG00000148841 ITPRIP 0.466982 0.001453 ENSG00000100239 PPP6R2 0.40958 0.00146 ENSG00000131374 TBC1D5 −0.43525 0.001466 ENSG00000243449 C4orf48 1.074502 0.001467 ENSG00000163113 0.722564 0.001477 ENSG00000183751 TBL3 0.539213 0.00148 ENSG00000167967 E4F1 0.548778 0.001484 ENSG00000244485 0.664347 0.00149 ENSG00000118276 B4GALT6 −0.4517 0.001491 ENSG00000198931 APRT 0.433441 0.001494 ENSG00000257698 0.515736 0.001495 ENSG00000128016 ZFP36 0.527007 0.001499 ENSG00000142794 NBPF3 0.546864 0.001499 ENSG00000166225 FRS2 −0.44595 0.00151 ENSG00000182162 P2RY8 0.426175 0.00153 ENSG00000160256 FAM207A 0.749261 0.001531 ENSG00000167995 BEST1 1.053017 0.001532 ENSG00000115275 MOGS 0.443968 0.001536 ENSG00000198464 ZNF480 −0.43077 0.001541 ENSG00000070669 ASNS −0.58397 0.001545 ENSG00000174080 CTSF −0.79641 0.001545 ENSG00000159692 CTBP1 0.436915 0.001546 ENSG00000166503 HDGFRP3 −0.46396 0.001548 ENSG00000165156 ZHX1 −0.4236 0.001551 ENSG00000007264 MATK 0.411961 0.001557 ENSG00000070404 FSTL3 0.892739 0.001563 ENSG00000171298 GAA 0.547148 0.001567 ENSG00000174938 SEZ6L2 −0.76436 0.001585 ENSG00000157483 MYO1E −1.26734 0.001597 ENSG00000164284 GRPEL2 −0.46179 0.001597 ENSG00000164896 FASTK 0.545006 0.001597 ENSG00000169972 PUSH 0.641817 0.001597 ENSG00000235084 0.816711 0.001597 ENSG00000072274 TFRC −0.41963 0.001604 ENSG00000101439 CST3 0.610802 0.001604 ENSG00000184470 TXNRD2 0.46498 0.001612 ENSG00000094975 SUCO 0.463365 0.001615 ENSG00000158156 XKR8 0.503409 0.001617 ENSG00000119535 CSF3R 0.405857 0.00162 ENSG00000163536 SERPINI1 0.927068 0.001624 ENSG00000084444 FAM234B −0.52569 0.001625 ENSG00000188994 ZNF292 −0.43654 0.001629 ENSG00000103642 LACTB 0.444779 0.00163 ENSG00000167394 ZNF668 0.70209 0.00163 ENSG00000095303 PTGS1 0.383662 0.001635 ENSG00000141994 DUS3L 0.501476 0.001635 ENSG00000169733 RFNG 0.591348 0.001636 ENSG00000143578 CREB3L4 −0.56782 0.001653 ENSG00000171314 PGAM1 0.440922 0.001653 ENSG00000085563 ABCB1 −1.0076 0.001658 ENSG00000178947 −1.19352 0.001665 ENSG00000102221 JADE3 −0.46754 0.001669 ENSG00000143067 ZNF697 −0.48655 0.00167 ENSG00000106003 LFNG 0.432563 0.001675 ENSG00000170191 NANP −0.46575 0.001675 ENSG00000187792 ZNF70 −0.67333 0.001675 ENSG00000110237 ARHGEF17 −0.63343 0.001677 ENSG00000134986 NREP −0.46537 0.001683 ENSG00000103152 MPG 0.508739 0.001697 ENSG00000119979 FAM45A 0.560723 0.001702 ENSG00000132561 MATN2 −0.74133 0.001703 ENSG00000147416 ATP6V1B2 0.495106 0.001704 ENSG00000144036 EXOC6B −0.64151 0.001711 ENSG00000132356 PRKAA1 −0.43811 0.001724 ENSG00000154263 ABCA10 −1.25811 0.001741 ENSG00000071794 HLTF −0.41873 0.001742 ENSG00000142669 SH3BGRL3 0.371202 0.001747 ENSG00000187231 SESTD1 −0.45259 0.00175 ENSG00000129355 CDKN2D 0.647067 0.001758 ENSG00000100024 UPB1 1.217796 0.001762 ENSG00000196843 ARID5A 0.490474 0.001776 ENSG00000162413 KLHL21 0.459932 0.001782 ENSG00000100031 GGT1 0.9162 0.001782 ENSG00000103245 NARFL 0.501732 0.001783 ENSG00000171055 FEZ2 −0.4308 0.001783 ENSG00000164506 STXBP5 0.473859 0.001785 ENSG00000197961 ZNF121 −0.4389 0.001786 ENSG00000068305 MEF2A −0.39408 0.001794 ENSG00000107957 SH3PXD2A −0.52537 0.001804 ENSG00000229953 1.063159 0.001807 ENSG00000184922 FMNL1 0.390287 0.001821 ENSG00000165716 FAM69B 1.006361 0.001832 ENSG00000111817 DSE −0.48668 0.001835 ENSG00000159335 PTMS 0.537725 0.001844 ENSG00000213799 ZNF845 −0.48015 0.001845 ENSG00000145491 ROPN1L 0.81377 0.001848 ENSG00000148339 SLC25A25 0.567318 0.001852 ENSG00000272405 0.59835 0.001853 ENSG00000138468 SENP7 −0.46763 0.001855 ENSG00000155660 PDIA4 0.406081 0.00186 ENSG00000105656 ELL 0.504716 0.001864 ENSG00000095932 SMIM24 −0.70371 0.001867 ENSG00000107223 EDF1 0.381557 0.001876 ENSG00000071859 FAM50A 0.481143 0.001882 ENSG00000078401 EDN1 1.27269 0.001882 ENSG00000175137 SH3BP5L 0.472745 0.001882 ENSG00000130303 BST2 −0.51949 0.001889 ENSG00000107890 ANKRD26 −0.59153 0.00189 ENSG00000114902 SPCS1 0.429703 0.001891 ENSG00000157538 DSCR3 −0.39222 0.001891 ENSG00000186432 KPNA4 −0.42758 0.001891 ENSG00000111670 GNPTAB −0.40939 0.001902 ENSG00000168421 RHOH 0.628219 0.001903 ENSG00000182903 ZNF721 −0.49468 0.001904 ENSG00000184205 TSPYL2 0.486891 0.001904 ENSG00000176871 WSB2 0.400678 0.001905 ENSG00000233755 1.221536 0.00191 ENSG00000213463 SYNJ2BP −0.59091 0.001914 ENSG00000137274 BPHL −0.64369 0.001935 ENSG00000145911 N4BP3 1.187798 0.001943 ENSG00000181019 NQO1 −0.46569 0.001943 ENSG00000247746 USP51 −0.77536 0.001945 ENSG00000166501 PRKCB −0.39789 0.001949 ENSG00000156017 CARNMT1 −0.49516 0.001951 ENSG00000214022 REPIN1 0.432621 0.002018 ENSG00000174502 SLC26A9 −1.20252 0.00202 ENSG00000063245 EPN1 0.471347 0.002031 ENSG00000157540 DYRK1A −0.38129 0.002036 ENSG00000181790 ADGRB1 −0.60697 0.002052 ENSG00000213846 −0.6208 0.002057 ENSG00000176055 MBLAC2 −0.5165 0.00206 ENSG00000184436 THAP7 0.506716 0.00206 ENSG00000174989 FBXW8 −0.60719 0.002063 ENSG00000166166 TRMT61A 0.504471 0.002074 ENSG00000123080 CDKN2C 0.436183 0.002078 ENSG00000163930 BAP1 0.378224 0.002088 ENSG00000071246 VASH1 −0.51699 0.002117 ENSG00000133739 LRRCC1 −0.60889 0.002119 ENSG00000231389 HLA-DPA1 −1.03732 0.002132 ENSG00000116761 CTH −0.74263 0.002132 ENSG00000251194 −0.96829 0.00215 ENSG00000118412 CASP8AP2 −0.42337 0.00215 ENSG00000165272 AQP3 0.618427 0.00215 ENSG00000108256 NUFIP2 −0.36561 0.002151 ENSG00000114120 SLC25A36 −0.41307 0.002159 ENSG00000148180 GSN −0.53878 0.002189 ENSG00000198466 ZNF587 −0.4321 0.002192 ENSG00000174718 KIAA1551 −0.52468 0.002203 ENSG00000142409 ZNF787 0.48247 0.002207 ENSG00000227295 0.835231 0.002213 ENSG00000120725 SIL1 0.425416 0.002225 ENSG00000086619 ERO1B −0.80631 0.002239 ENSG00000196417 ZNF765 −0.46276 0.00225 ENSG00000182544 MFSD5 0.464822 0.002254 ENSG00000182208 MOB2 0.530406 0.002258 ENSG00000247596 TWF2 0.449871 0.002258 ENSG00000167302 ENTHD2 0.503129 0.002263 ENSG00000126262 FFAR2 1.219805 0.002265 ENSG00000142065 ZFP14 −0.76316 0.002267 ENSG00000164535 DAGLB 0.470432 0.002275 ENSG00000172757 CFL1 0.356184 0.002276 ENSG00000265485 LOC729950 −1.02993 0.002279 ENSG00000135503 ACVR1B 0.467067 0.002292 ENSG00000099899 TRMT2A 0.427479 0.002306 ENSG00000001036 FUCA2 0.424446 0.002307 ENSG00000130203 APOE 1.107503 0.002308 ENSG00000147155 EBP 0.422425 0.002308 ENSG00000073792 IGF2BP2 −0.39565 0.002323 ENSG00000063587 ZNF275 −0.44047 0.002329 ENSG00000153944 MSI2 −0.426 0.002329 ENSG00000164327 RICTOR −0.41602 0.002329 ENSG00000173611 SCAI −0.56081 0.002329 ENSG00000136908 DPM2 0.41939 0.002374 ENSG00000164076 CAMKV −1.17735 0.002374 ENSG00000213096 ZNF254 −0.45907 0.002378 ENSG00000170619 COMMD5 0.492662 0.002397 ENSG00000185404 SP140L −0.49738 0.00241 ENSG00000171148 TADA3 0.384394 0.002414 ENSG00000117298 ECE1 0.518243 0.002425 ENSG00000100427 MLC1 0.40209 0.002426 ENSG00000103126 AXIN1 0.431309 0.002451 ENSG00000107731 UNC5B −0.6273 0.002455 ENSG00000133019 CHRM3 −0.51767 0.002455 ENSG00000172465 TCEAL1 −0.5337 0.002456 ENSG00000173638 SLC19A1 0.474215 0.002456 ENSG00000146376 ARHGAP18 −0.44376 0.002466 ENSG00000131389 SLC6A6 0.436364 0.002514 ENSG00000131652 THOC6 0.432011 0.002522 ENSG00000118508 RAB32 0.471332 0.002536 ENSG00000233280 −0.73385 0.002537 ENSG00000152484 USP12 0.387857 0.002538 ENSG00000182308 DCAF4L1 0.582162 0.002568 ENSG00000059915 PSD 1.230722 0.00258 ENSG00000170876 TMEM43 −0.39523 0.002585 ENSG00000011304 PTBP1 0.377195 0.002602 ENSG00000101974 ATP11C −0.40853 0.002602 ENSG00000139289 PHLDA1 1.115592 0.002602 ENSG00000150048 CLEC1A 0.940559 0.002602 ENSG00000175048 ZDHHC14 0.470248 0.002602 ENSG00000198420 TCAF1 −0.54719 0.002602 ENSG00000123870 −0.7894 0.002602 ENSG00000143847 PPFIA4 0.771445 0.002604 ENSG00000033327 GAB2 −0.49755 0.002616 ENSG00000205045 SLFN12L −1.21987 0.002616 ENSG00000185262 UBALD2 0.630437 0.002625 ENSG00000149269 PAK1 0.407866 0.002637 ENSG00000180336 MEIOC −0.83575 0.00265 ENSG00000125656 CLPP 0.472181 0.002668 ENSG00000104055 TGM5 0.904708 0.002673 ENSG00000173153 ESRRA 0.425843 0.002673 ENSG00000161981 SNRNP25 0.415558 0.002674 ENSG00000059588 TARBP1 −0.4269 0.002705 ENSG00000165312 OTUD1 0.905239 0.002705 ENSG00000167600 CYP2S1 −0.59648 0.002705 ENSG00000180667 YOD1 −0.51842 0.002706 ENSG00000138380 CARF −0.57928 0.002709 ENSG00000177595 PIDD1 0.541929 0.002709 ENSG00000128872 TMOD2 0.604495 0.002711 ENSG00000164828 SUN1 0.514172 0.002713 ENSG00000014919 COX15 −0.38484 0.002727 ENSG00000221926 TRIM16 0.716056 0.002727 ENSG00000100321 SYNGR1 0.467367 0.002731 ENSG00000134444 KIAA1468 −0.40718 0.00274 ENSG00000184903 IMMP2L −0.53109 0.002745 ENSG00000170340 B3GNT2 −0.40144 0.002751 ENSG00000133574 GIMAP4 1.204888 0.002757 ENSG00000090006 LTBP4 0.507249 0.002771 ENSG00000168393 DTYMK 0.501508 0.002782 ENSG00000107175 CREB3 0.462832 0.002783 ENSG00000261221 ZNF865 0.589788 0.002783 ENSG00000139323 POC1B −0.44538 0.002795 ENSG00000217128 FNIP1 −0.42126 0.002798 ENSG00000144136 SLC2OA1 −0.39632 0.002799 ENSG00000147475 ERLIN2 −0.42656 0.002808 ENSG00000269640 −0.68557 0.002811 ENSG00000179630 LACC1 0.405304 0.002817 ENSG00000205339 IPO7 −0.38194 0.002817 ENSG00000023171 GRAMD1B 0.45473 0.002825 ENSG00000267416 LOC105371849 1.160554 0.002837 ENSG00000196365 LONP1 0.442824 0.00287 ENSG00000104635 SLC39A14 −0.401 0.002889 ENSG00000155254 MARVELD1 −0.45123 0.002891 ENSG00000254004 ZNF260 −0.41576 0.002896 ENSG00000173041 ZNF680 −0.47925 0.00291 ENSG00000162511 LAPTM5 0.365856 0.002919 ENSG00000162430 SEPN1 0.390227 0.002925 ENSG00000171466 ZNF562 −0.40367 0.002936 ENSG00000007541 PIGQ 0.478566 0.002941 ENSG00000079691 LRRC16A −0.55296 0.002948 ENSG00000112159 MDN1 −0.44654 0.002948 ENSG00000112972 HMGCS1 −0.48268 0.00296 ENSG00000162062 C16orf59 0.71242 0.002966 ENSG00000104856 RELB 1.131975 0.002968 ENSG00000106803 SEC61B 0.399549 0.002984 ENSG00000146463 ZMYM4 −0.36034 0.002987 ENSG00000154945 ANKRD40 −0.38998 0.003006 ENSG00000012124 CD22 −1.17525 0.003033 ENSG00000221869 CEBPD 0.574886 0.003033 ENSG00000267121 0.780028 0.003037 ENSG00000123505 AMD1 −0.35986 0.003038 ENSG00000099256 PRTFDC1 −0.6475 0.003047 ENSG00000197020 ZNF100 −0.42864 0.003047 ENSG00000165832 TRUB1 −0.41701 0.003059 ENSG00000177426 TGIF1 0.506166 0.003059 ENSG00000085721 RRN3 −0.37174 0.003085 ENSG00000180773 SLC36A4 0.427546 0.003101 ENSG00000104872 PIH1D1 0.392164 0.003109 ENSG00000135441 BLOC1S1 0.507942 0.003111 ENSG00000167637 ZNF283 −0.63398 0.003118 ENSG00000151422 FER −0.4724 0.00314 ENSG00000179933 C14orf119 0.390098 0.003144 ENSG00000125505 MBOAT7 0.376097 0.003151 ENSG00000243335 KCTD7 0.674415 0.003157 ENSG00000197253 TPSB2 0.620274 0.003165 ENSG00000104967 NOVA2 −0.77949 0.003201 ENSG00000119655 NPC2 0.403954 0.003209 ENSG00000272620 AFAP1-AS1 0.496734 0.003212 ENSG00000183307 CECR6 −0.61431 0.003213 ENSG00000116791 CRYZ −0.56324 0.003219 ENSG00000087253 LPCAT2 0.349445 0.003227 ENSG00000139998 RAB15 0.72542 0.003232 ENSG00000146540 C7orf50 0.589122 0.003232 ENSG00000059122 FLYWCH1 0.455388 0.003237 ENSG00000079337 RAPGEF3 −0.80832 0.003242 ENSG00000130052 STARD8 −0.44888 0.003253 ENSG00000106853 PTGR1 −0.53119 0.003257 ENSG00000085433 WDR47 −0.4814 0.003257 ENSG00000125967 NECAB3 0.561192 0.003262 ENSG00000100201 DDX17 −0.34913 0.003264 ENSG00000122952 ZWINT 0.463894 0.003264 ENSG00000086504 MRPL28 0.431267 0.003269 ENSG00000171791 BCL2 −0.45492 0.003271 ENSG00000250508 LOC105369364 −0.66987 0.003275 ENSG00000132017 DCAF15 0.429588 0.003276 ENSG00000174738 NR1D2 −0.55226 0.003284 ENSG00000021762 OSBPL5 −0.59782 0.003299 ENSG00000122435 TRMT13 −0.43531 0.003309 ENSG00000060762 MPC1 0.45461 0.003332 ENSG00000165996 HACD1 −0.56734 0.003357 ENSG00000196358 NTNG2 0.645603 0.003365 ENSG00000175470 PPP2R2D 0.424472 0.00337 ENSG00000197863 ZNF790 −0.65976 0.00337 ENSG00000188807 TMEM201 0.452682 0.003391 ENSG00000104973 MED25 0.422398 0.003392 ENSG00000148362 C9orf142 0.529451 0.003392 ENSG00000146433 TMEM181 −0.4244 0.003409 ENSG00000163818 LZTFL1 −0.48334 0.003409 ENSG00000177383 MAGEF1 0.506845 0.003409 ENSG00000242372 EIF6 0.385204 0.003409 ENSG00000112218 GPR63 0.759225 0.003414 ENSG00000229162 −1.18224 0.003414 ENSG00000175221 MED16 0.490814 0.003418 ENSG00000014164 ZC3H3 0.492534 0.003424 ENSG00000089060 SLC8B1 0.438788 0.003424 ENSG00000162078 ZG16B 0.534053 0.003445 ENSG00000180867 0.362893 0.003445 ENSG00000122068 FYTTD1 −0.37292 0.003449 ENSG00000176595 KBTBD11 0.84457 0.003453 ENSG00000007312 CD79B 0.636356 0.003467 ENSG00000182095 TNRC18 0.464366 0.003484 ENSG00000065243 PKN2 −0.4011 0.003486 ENSG00000164713 BRI3 0.468196 0.003516 ENSG00000105835 NAMPT 0.543207 0.003531 ENSG00000171522 PTGER4 0.667935 0.003532 ENSG00000149218 ENDOD1 −1.00695 0.003535 ENSG00000171634 BPTF −0.38617 0.003535 ENSG00000197558 SSPO −1.03117 0.003535 ENSG00000168116 KIAA1586 −0.41093 0.003536 ENSG00000169891 REPS2 −0.96338 0.003536 ENSG00000132718 SYT11 −0.57876 0.003567 ENSG00000176058 TPRN 0.503192 0.003591 ENSG00000109265 KIAA1211 −0.58805 0.003612 ENSG00000134247 PTGFRN 0.759068 0.003633 ENSG00000175155 YPEL2 0.718821 0.003638 ENSG00000005075 POLR2J 0.471605 0.003655 ENSG00000043591 ADRB1 −0.81666 0.00367 ENSG00000108961 RANGRF 0.429045 0.003672 ENSG00000123607 TTC21B −0.45786 0.003672 ENSG00000172322 CLEC12A 0.376667 0.003685 ENSG00000072310 SREBF1 0.455056 0.003702 ENSG00000141540 TTYH2 −0.60421 0.003717 ENSG00000151458 ANKRD50 −0.43752 0.003717 ENSG00000109586 GALNT7 −0.35955 0.003731 ENSG00000172243 CLEC7A 1.028779 0.00376 ENSG00000197582 0.445395 0.003765 ENSG00000154743 TSEN2 −0.48276 0.003776 ENSG00000169718 DUS1L 0.423514 0.003788 ENSG00000070540 WIPI1 0.751538 0.003789 ENSG00000224116 INHBA-AS1 −1.058 0.0038 ENSG00000123136 DDX39A 0.394988 0.003808 ENSG00000152454 ZNF256 −0.55424 0.003813 ENSG00000176853 FAM91A1 −0.37305 0.003818 ENSG00000134028 ADAMDEC1 −0.75446 0.003821 ENSG00000116704 SLC35D1 −0.38518 0.003823 ENSG00000250510 GPR162 0.688322 0.00383 ENSG00000171757 LRRC34 −0.84773 0.003836 ENSG00000198718 FAM179B −0.48576 0.003836 ENSG00000088727 KIF9 −0.56738 0.003846 ENSG00000172375 C2CD2L 0.537696 0.003846 ENSG00000198252 STYX −0.38412 0.003846 ENSG00000174851 YIF1A 0.501363 0.003846 ENSG00000180879 SSR4 0.382752 0.003858 ENSG00000127603 MACF1 −0.44527 0.003871 ENSG00000100599 RIN3 0.41168 0.003894 ENSG00000126391 FRMD8 0.39925 0.003894 ENSG00000143079 CTTNBP2NL −0.64611 0.003899 ENSG00000196233 LCOR −0.40996 0.003904 ENSG00000180573 HIST1H2AC −0.75363 0.003907 ENSG00000157106 SMG1 −0.37986 0.003907 ENSG00000272068 0.812571 0.003908 ENSG00000106689 LHX2 1.205152 0.003913 ENSG00000115155 OTOF 1.148901 0.003919 ENSG00000244462 RBM12 −0.4354 0.003929 ENSG00000005020 SKAP2 −0.40992 0.003956 ENSG00000169245 CXCL10 1.126076 0.003956 ENSG00000197603 C5orf42 −0.51506 0.003956 ENSG00000272502 1.044695 0.003956 ENSG00000011028 MRC2 0.434753 0.003976 ENSG00000155100 OTUD6B −0.45276 0.003991 ENSG00000172428 MYEOV2 0.495141 0.003995 ENSG00000101384 JAG1 0.40956 0.004001 ENSG00000185973 TMLHE −0.54345 0.004001 ENSG00000161036 LRWD1 0.501277 0.004026 ENSG00000212123 PRR22 0.867307 0.004031 ENSG00000112290 WASF1 −0.38061 0.004036 ENSG00000124299 PEPD 0.410977 0.004041 ENSG00000102804 TSC22D1 −0.48478 0.004051 ENSG00000123154 WDR83 0.577471 0.004051 ENSG00000172037 LAMB2 −0.51922 0.004052 ENSG00000100280 AP1B1 0.401453 0.004086 ENSG00000137411 VARS2 0.43698 0.004105 ENSG00000146830 GIGYF1 0.409861 0.004106 ENSG00000267337 LINC01478 −1.1796 0.004106 ENSG00000185885 IFITM1 −0.63293 0.004107 ENSG00000105248 CCDC94 0.457975 0.004121 ENSG00000116096 SPR −0.45892 0.004121 ENSG00000164086 DUSP7 −0.37351 0.004121 ENSG00000185896 LAMP1 0.340925 0.004136 ENSG00000172354 GNB2 0.38165 0.004143 ENSG00000237513 −1.06996 0.004145 ENSG00000165025 SYK 0.402928 0.004146 ENSG00000100077 ADRBK2 0.577748 0.004179 ENSG00000146414 SHPRH −0.51624 0.004185 ENSG00000100243 CYB5R3 0.374902 0.004196 ENSG00000182150 ERCC6L2 −0.48052 0.004208 ENSG00000142227 EMP3 0.377784 0.004211 ENSG00000014138 POLA2 0.414611 0.004244 ENSG00000005889 ZFX −0.39329 0.004261 ENSG00000213468 FIRRE −0.7851 0.004261 ENSG00000072401 UBE2D1 0.454864 0.004287 ENSG00000161638 ITGA5 −0.38264 0.004294 ENSG00000227942 FRMD8P1 0.989822 0.004311 ENSG00000137216 TMEM63B 0.637344 0.004316 ENSG00000119638 NEK9 −0.35289 0.004322 ENSG00000141655 TNFRSF11A −0.88824 0.004345 ENSG00000263013 −0.74742 0.004348 ENSG00000169860 P2RY1 −0.88651 0.004353 ENSG00000105708 ZNF14 −0.52688 0.004362 ENSG00000189007 ADAT2 −0.38552 0.004403 ENSG00000057019 DCBLD2 −0.54746 0.004405 ENSG00000101265 RASSF2 0.348217 0.004413 ENSG00000198498 TMA16 −0.39654 0.004421 ENSG00000216490 IFI30 0.993179 0.004422 ENSG00000197128 ZNF772 −0.50703 0.004438 ENSG00000126062 TMEM115 0.495931 0.004457 ENSG00000153234 NR4A2 0.58396 0.004458 ENSG00000231870 1.093922 0.004486 ENSG00000056277 ZNF280C −0.49564 0.004496 ENSG00000096092 TMEM14A −0.63348 0.00451 ENSG00000135124 P2RX4 0.542266 0.004513 ENSG00000164603 C7orf60 0.674444 0.004544 ENSG00000021826 CPS1 −0.3895 0.004555 ENSG00000197150 ABCB8 0.519749 0.004566 ENSG00000063169 GLTSCR1 0.685631 0.004575 ENSG00000153147 SMARCA5 −0.35136 0.004591 ENSG00000261596 0.995713 0.004608 ENSG00000164305 CASP3 0.420369 0.004608 ENSG00000237632 0.915496 0.004617 ENSG00000149115 TNKS1BP1 0.42473 0.004638 ENSG00000198818 SFT2D1 0.365424 0.004638 ENSG00000182866 LCK −0.81872 0.00464 ENSG00000138496 PARP9 −0.54316 0.004698 ENSG00000138834 MAPK8IP3 0.399273 0.00471 ENSG00000130255 RPL36 0.344848 0.004726 ENSG00000160972 PPP1R16A 0.561456 0.004746 ENSG00000164050 PLXNB1 0.526972 0.004765 ENSG00000167004 PDIA3 0.353173 0.004765 ENSG00000135604 STX11 1.142932 0.004767 ENSG00000100364 KIAA0930 0.43995 0.00477 ENSG00000164066 INTU −0.58387 0.004774 ENSG00000183688 FAM101B 0.377511 0.004783 ENSG00000142798 HSPG2 −0.51204 0.004819 ENSG00000232499 −0.3921 0.004819 ENSG00000172878 METAP1D −0.47294 0.00483 ENSG00000080345 RIF1 −0.39747 0.004847 ENSG00000138760 SCARB2 −0.36633 0.004902 ENSG00000196209 SIRPB2 0.611693 0.004913 ENSG00000177548 RABEP2 0.49431 0.004925 ENSG00000107614 TRDMT1 −0.50689 0.00494 ENSG00000123329 ARHGAP9 0.383112 0.004943 ENSG00000066422 ZBTB11 −0.3693 0.004969 ENSG00000188641 DPYD 0.373681 0.005006 ENSG00000158286 RNF207 −0.7317 0.005012 ENSG00000175634 RPS6KB2 0.373631 0.005014 ENSG00000198502 HLA-DRB5 −0.57251 0.005014 ENSG00000025770 NCAPH2 0.433977 0.005019 ENSG00000101079 NDRG3 −0.40722 0.005019 ENSG00000148175 STOM −0.3866 0.005028 ENSG00000011009 LYPLA2 0.394894 0.005057 ENSG00000123472 ATPAF1 −0.41656 0.005058 ENSG00000153071 DAB2 −0.47672 0.00506 ENSG00000086289 EPDR1 −0.38922 0.005067 ENSG00000185359 HGS 0.364348 0.005071 ENSG00000004777 ARHGAP33 0.675103 0.005076 ENSG00000136250 AOAH 0.702224 0.005087 ENSG00000108107 RPL28 0.352477 0.00509 ENSG00000122042 UBL3 −0.39609 0.005099 ENSG00000244620 −1.09612 0.005125 ENSG00000138688 KIAA1109 −0.43566 0.005127 ENSG00000150760 DOCK1 −0.3663 0.005128 ENSG00000158104 HPD 0.749071 0.005128 ENSG00000067836 ROGDI 0.460594 0.005137 ENSG00000253710 ALG11 −0.55356 0.005144 ENSG00000166086 JAM3 −0.50003 0.005198 ENSG00000114737 CISH 0.408251 0.005201 ENSG00000170545 SMAGP −0.54037 0.005268 ENSG00000154134 ROBO3 −1.04951 0.005271 ENSG00000125843 AP5S1 0.467034 0.005276 ENSG00000173486 FKBP2 0.479205 0.005327 ENSG00000097021 ACOT7 0.442379 0.005376 ENSG00000135506 OS9 0.373692 0.005376 ENSG00000126814 TRMT5 −0.38539 0.005431 ENSG00000188002 −0.86526 0.005434 ENSG00000143479 DYRK3 −0.61886 0.00545 ENSG00000198707 CEP290 −0.45876 0.005464 ENSG00000025039 RRAGD 0.813253 0.005476 ENSG00000101096 NFATC2 −0.48202 0.005476 ENSG00000149930 TAOK2 0.374696 0.005502 ENSG00000162946 DISC1 −0.5698 0.005552 ENSG00000154589 LY96 1.071592 0.005561 ENSG00000185269 NOTUM 0.827645 0.005561 ENSG00000196911 KPNA5 −0.45915 0.005573 ENSG00000100084 HIRA 0.461645 0.005574 ENSG00000163399 ATP1A1 0.332953 0.005574 ENSG00000166579 NDEL1 0.379448 0.005575 ENSG00000197461 PDGFA 0.644469 0.005597 ENSG00000100034 PPM1F −0.34097 0.005617 ENSG00000099308 MAST3 0.56429 0.005619 ENSG00000157500 APPL1 −0.38002 0.005631 ENSG00000196214 ZNF766 −0.43174 0.005633 ENSG00000168995 SIGLEC7 0.813363 0.005647 ENSG00000166128 RAB8B 0.398334 0.005649 ENSG00000130449 ZSWIM6 −0.45424 0.005656 ENSG00000167378 IRGQ 0.479185 0.00566 ENSG00000119661 DNAL1 −0.50801 0.005676 ENSG00000197324 LRP10 0.387559 0.005693 ENSG00000244026 FAM86DP −0.60754 0.005735 ENSG00000145247 OCIAD2 −0.48349 0.005739 ENSG00000099917 MED15 0.358539 0.005797 ENSG00000116251 RPL22 −0.36196 0.005805 ENSG00000211455 STK38L 0.373858 0.005809 ENSG00000240342 0.356364 0.00581 ENSG00000217027 0.391357 0.005827 ENSG00000111252 SH2B3 −0.34963 0.00583 ENSG00000136636 KCTD3 −0.3628 0.00583 ENSG00000161642 ZNF385A 0.419444 0.005848 ENSG00000251002 0.889229 0.005853 ENSG00000180346 TIGD2 −0.47086 0.005861 ENSG00000015479 MATR3 −0.35055 0.005868 ENSG00000179115 FARSA 0.406508 0.005873 ENSG00000183207 RUVBL2 0.368159 0.005877 ENSG00000109189 USP46 −0.39739 0.005878 ENSG00000078589 P2RY10 0.825296 0.0059 ENSG00000109452 INPP4B −0.40287 0.005904 ENSG00000186814 ZSCAN30 −0.42495 0.005919 ENSG00000198453 ZNF568 −0.90961 0.005921 ENSG00000169288 MRPL1 −0.37518 0.005966 ENSG00000258590 1.027025 0.005966 ENSG00000117620 SLC35A3 −0.42139 0.005982 ENSG00000078140 UBE2K −0.35741 0.006011 ENSG00000125898 FAM110A 0.534762 0.006017 ENSG00000147548 WHSC1L1 −0.34735 0.006055 ENSG00000105258 POLR2I 0.481967 0.006069 ENSG00000233016 SNHG7 0.396022 0.006147 ENSG00000134250 NOTCH2 0.646973 0.006158 ENSG00000181827 RFX7 −0.3825 0.00616 ENSG00000197852 FAM212B −0.5519 0.006165 ENSG00000058335 RASGRF1 0.878174 0.006167 ENSG00000133740 E2F5 −0.65102 0.006167 ENSG00000174197 MGA −0.45204 0.006231 ENSG00000171310 CHST11 0.334086 0.00624 ENSG00000119681 LTBP2 0.941051 0.006258 ENSG00000186185 KIF18B 0.428503 0.006266 ENSG00000160877 NACC1 0.348822 0.006281 ENSG00000054967 RELT 0.383693 0.006288 ENSG00000099377 HSD3B7 0.609184 0.006292 ENSG00000105369 CD79A 0.497354 0.006292 ENSG00000165506 DNAAF2 −0.44169 0.006292 ENSG00000111300 NAA25 −0.40023 0.006304 ENSG00000028137 TNFRSF1B 0.356918 0.006328 ENSG00000105492 SIGLEC6 0.658139 0.006391 ENSG00000160408 ST6GALNAC6 0.405332 0.006398 ENSG00000163714 U2SURP −0.36799 0.006429 ENSG00000112096 SOD2 1.110839 0.006447 ENSG00000143158 MPC2 0.419195 0.006447 ENSG00000255262 0.778286 0.00645 ENSG00000082516 GEMIN5 −0.39235 0.006451 ENSG00000122971 ACADS 0.436337 0.006451 ENSG00000131462 TUBG1 0.404273 0.006452 ENSG00000072210 ALDH3A2 0.726886 0.00646 ENSG00000185164 NOMO2 0.405484 0.006485 ENSG00000140365 COMMD4 0.436528 0.006496 ENSG00000164307 ERAP1 −0.36384 0.006501 ENSG00000198168 SVIP 0.528213 0.006521 ENSG00000032742 IFT88 −0.44813 0.006546 ENSG00000006712 PAF1 0.376987 0.006548 ENSG00000135451 TROAP 0.459673 0.006565 ENSG00000162300 ZFPL1 0.439011 0.0066 ENSG00000110315 RNF141 −0.41888 0.006603 ENSG00000185347 C14orf80 0.646991 0.006621 ENSG00000160209 PDXK 0.37386 0.006631 ENSG00000117000 RLF −0.37893 0.006672 ENSG00000171843 MLLT3 −0.464 0.006675 ENSG00000188313 PLSCR1 0.345971 0.006675 ENSG00000197136 PCNX3 0.44753 0.006675 ENSG00000154358 OBSCN −0.93762 0.00669 ENSG00000173801 JUP −0.37253 0.006701 ENSG00000181045 SLC26A11 0.936496 0.006709 ENSG00000085117 CD82 0.544896 0.006725 ENSG00000161267 BDH1 0.366011 0.006725 ENSG00000196437 ZNF569 −0.48831 0.006725 ENSG00000101665 SMAD7 0.422227 0.00673 ENSG00000142186 SCYL1 0.37023 0.006739 ENSG00000169083 AR 0.955327 0.00674 ENSG00000100056 DGCR14 0.415493 0.006762 ENSG00000135821 GLUL 0.371143 0.006762 ENSG00000145050 MANF 0.369923 0.006762 ENSG00000205302 SNX2 −0.33596 0.006781 ENSG00000233461 0.772664 0.006854 ENSG00000259758 −0.40204 0.006879 ENSG00000155545 MIER3 −0.3668 0.006911 ENSG00000167562 ZNF701 −0.51557 0.006911 ENSG00000070731 ST6GALNAC2 1.014964 0.006919 ENSG00000030419 IKZF2 0.402913 0.006931 ENSG00000231344 0.539784 0.006965 ENSG00000155438 NIFK −0.34997 0.006975 ENSG00000154217 PITPNC1 0.596727 0.006992 ENSG00000187912 CLEC17A 0.783968 0.006995 ENSG00000160336 ZNF761 −0.38956 0.007016 ENSG00000132688 NES −0.8807 0.007066 ENSG00000136169 SETDB2 −0.43501 0.007074 ENSG00000160087 UBE2J2 0.389948 0.007128 ENSG00000153560 UBP1 −0.33707 0.007128 ENSG00000055609 KMT2C −0.43483 0.007175 ENSG00000156136 DCK −0.36714 0.007215 ENSG00000198858 R3HDM4 0.363846 0.007293 ENSG00000168813 ZNF507 −0.42929 0.007306 ENSG00000136813 KIAA0368 −0.33751 0.007317 ENSG00000114383 TUSC2 0.397108 0.007354 ENSG00000140264 SERF2 0.343191 0.007393 ENSG00000173465 SSSCA1 0.505981 0.007399 ENSG00000105516 DBP 0.8405 0.007419 ENSG00000059145 UNKL 0.493161 0.007445 ENSG00000187325 TAF9B −0.45034 0.00747 ENSG00000182957 SPATA13 0.430397 0.007529 ENSG00000163935 SFMBT1 0.503087 0.007534 ENSG00000064393 HIPK2 −0.52802 0.007551 ENSG00000134982 APC −0.38578 0.007706 ENSG00000154803 FLCN 0.49417 0.007727 ENSG00000068366 ACSL4 0.330828 0.007782 ENSG00000133313 CNDP2 −0.34136 0.007782 ENSG00000228612 0.521723 0.007782 ENSG00000117399 CDC20 0.367505 0.007797 ENSG00000101935 AMMECR1 −0.40263 0.007811 ENSG00000136144 RCBTB1 −0.43794 0.007866 ENSG00000182670 TTC3 −0.33078 0.007892 ENSG00000101057 MYBL2 0.437343 0.007915 ENSG00000124145 SDC4 1.005467 0.007926 ENSG00000166562 SEC11C 0.440412 0.007941 ENSG00000065809 FAM107B 0.478152 0.007963 ENSG00000178715 0.361753 0.007983 ENSG00000148803 FUOM 0.435948 0.008009 ENSG00000223960 LOC101927027 −0.46331 0.008009 ENSG00000105514 RAB3D 0.393756 0.008011 ENSG00000171862 PTEN −0.36891 0.008011 ENSG00000099810 MTAP −0.35834 0.008012 ENSG00000169504 CLIC4 −0.35635 0.008036 ENSG00000170315 UBB −0.32533 0.008048 ENSG00000058056 USP13 −0.3941 0.008052 ENSG00000077157 PPP1R12B −0.42806 0.008066 ENSG00000108518 PFN1 0.328559 0.008066 ENSG00000153936 HS2ST1 −0.41933 0.008066 ENSG00000105552 BCAT2 0.401595 0.00807 ENSG00000006757 PNPLA4 −0.7027 0.008077 ENSG00000165724 ZMYND19 0.393181 0.008094 ENSG00000215039 CD27-AS1 −0.58751 0.008097 ENSG00000160352 ZNF714 −0.43511 0.008103 ENSG00000172345 STARD5 0.753656 0.008103 ENSG00000204099 NEU4 1.081393 0.008157 ENSG00000186020 ZNF529 −0.39225 0.008197 ENSG00000159348 CYB5R1 0.541345 0.00821 ENSG00000196976 LAGE3 0.457539 0.008216 ENSG00000116586 LAMTOR2 0.373879 0.008269 ENSG00000261801 LOXL1-AS1 −0.46788 0.008269 ENSG00000108262 GIT1 0.366857 0.008285 ENSG00000121858 TNFSF10 0.996111 0.008297 ENSG00000054148 PHPT1 0.364508 0.008305 ENSG00000128311 TST 0.47279 0.008305 ENSG00000205593 DENND6B −0.54354 0.00831 ENSG00000146676 PURB −0.33749 0.008354 ENSG00000157077 ZFYVE9 0.909646 0.008354 ENSG00000187164 SHTN1 −1.07694 0.008375 ENSG00000265982 1.061417 0.008498 ENSG00000131653 TRAF7 0.355871 0.008523 ENSG00000090661 CERS4 0.395969 0.008572 ENSG00000100596 SPTLC2 −0.32409 0.008572 ENSG00000125630 POLR1B −0.35063 0.008572 ENSG00000143641 GALNT2 0.330482 0.008572 ENSG00000080503 SMARCA2 −0.34182 0.008575 ENSG00000134809 TIMM10 0.411212 0.008575 ENSG00000214026 MRPL23 0.364397 0.008581 ENSG00000242358 0.379331 0.008593 ENSG00000138944 KIAA1644 −0.53101 0.008654 ENSG00000006576 PHTF2 0.386519 0.008677 ENSG00000083312 TNPO1 −0.42069 0.008692 ENSG00000137760 ALKBH8 −0.42404 0.008693 ENSG00000234311 0.816682 0.008736 ENSG00000006075 1.123173 0.008739 ENSG00000113119 TMCO6 −0.5193 0.008763 ENSG00000270532 0.511176 0.008763 ENSG00000139192 TAPBPL 0.471907 0.008841 ENSG00000178904 DPY19L3 −0.41281 0.00887 ENSG00000083844 ZNF264 −0.61547 0.008873 ENSG00000184730 APOBR 0.423291 0.008873 ENSG00000151553 FAM160B1 −0.37091 0.008886 ENSG00000133706 LARS −0.33379 0.008907 ENSG00000172572 PDE3A 0.960391 0.008913 ENSG00000183092 BEGAIN 0.67433 0.008924 ENSG00000228974 0.839781 0.008946 ENSG00000128578 STRIP2 −0.66217 0.008989 ENSG00000101464 PIGU 0.377786 0.009007 ENSG00000136100 VPS36 −0.35743 0.009047 ENSG00000048471 SNX29 −0.39904 0.00907 ENSG00000100629 CEP128 −0.45793 0.00907 ENSG00000187994 RINL 0.459394 0.00907 ENSG00000213293 0.373109 0.00907 ENSG00000235162 C12orf75 −0.62282 0.009082 ENSG00000081913 PHLPP1 −0.41204 0.009082 ENSG00000112078 KCTD20 −0.34609 0.009108 ENSG00000133265 HSPBP1 0.4156 0.009108 ENSG00000080189 SLC35C2 0.37849 0.009111 ENSG00000140854 KATNB1 0.369253 0.009111 ENSG00000177311 ZBTB38 0.526589 0.009111 ENSG00000144579 CTDSP1 0.321019 0.009124 ENSG00000092621 PHGDH −0.47121 0.009144 ENSG00000105993 DNAJB6 0.407469 0.00916 ENSG00000196712 NF1 −0.38083 0.00916 ENSG00000142684 ZNF593 0.454248 0.009198 ENSG00000260065 −0.44473 0.009202 ENSG00000138036 DYNC2LI1 −0.50567 0.009245 ENSG00000198846 TOX −0.38409 0.009252 ENSG00000136560 TANK 0.494285 0.009297 ENSG00000226137 BAIAP2-AS1 −0.34164 0.009297 ENSG00000132471 WBP2 0.371579 0.009301 ENSG00000138600 SPPL2A 0.38398 0.009317 ENSG00000166900 STX3 0.349508 0.009375 ENSG00000130402 ACTN4 0.385924 0.009434 ENSG00000091039 OSBPL8 −0.3884 0.009438 ENSG00000136381 IREB2 −0.3789 0.009438 ENSG00000229186 −0.53387 0.009438 ENSG00000183340 JRKL −0.41599 0.009452 ENSG00000109756 RAPGEF2 −0.46547 0.009456 ENSG00000111801 BTN3A3 −0.82854 0.009462 ENSG00000135902 CHRND 1.086544 0.009462 ENSG00000187193 MT1X 0.634429 0.009472 ENSG00000088854 C20orf194 −0.36678 0.009481 ENSG00000116871 MAP7D1 0.358713 0.009481 ENSG00000090339 ICAM1 0.980124 0.009521 ENSG00000139266 42438 0.947134 0.009526 ENSG00000102763 VWA8 −0.3986 0.009562 ENSG00000105671 DDX49 0.400937 0.00958 ENSG00000105875 WDR91 0.550172 0.00958 ENSG00000144455 SUMF1 0.406835 0.00958 ENSG00000198265 HELZ −0.35541 0.00958 ENSG00000060138 YBX3 −0.32174 0.0096 ENSG00000154783 FGD5 −0.94527 0.0096 ENSG00000197258 −0.37284 0.0096 ENSG00000141985 SH3GL1 0.389673 0.009612 ENSG00000182048 TRPC2 −0.51862 0.009657 ENSG00000213160 KLHL23 −0.42458 0.009663 ENSG00000198146 ZNF770 −0.35213 0.009692 ENSG00000051382 PIK3CB 0.343412 0.009704 ENSG00000185504 FAAP100 0.429295 0.009717 ENSG00000100814 CCNB1IP1 −0.32803 0.009729 ENSG00000166598 HSP90B1 0.319462 0.009835 ENSG00000111452 ADGRD1 0.970904 0.009892 ENSG00000267533 0.450122 0.009906 ENSG00000198324 FAM109A 0.431903 0.009912 ENSG00000167900 TK1 0.415937 0.009929 ENSG00000068796 KIF2A −0.36037 0.009949 ENSG00000135048 TMEM2 −0.47332 0.009953 ENSG00000127837 AAMP 0.357332 0.009986 ENSG00000109390 NDUFC1 0.3924 0.01001 ENSG00000131378 RFTN1 −0.41428 0.010014 ENSG00000197119 SLC25A29 0.601981 0.010052 ENSG00000168237 GLYCTK 0.452537 0.010067 ENSG00000133703 KRAS −0.346 0.01007 ENSG00000163795 ZNF513 0.472306 0.010172 ENSG00000205744 DENND1C 0.386714 0.010176 ENSG00000101152 DNAJC5 0.379029 0.010205 ENSG00000106333 PCOLCE 0.675631 0.010205 ENSG00000137992 DBT −0.3985 0.010205 ENSG00000171953 ATPAF2 0.388478 0.010205 ENSG00000091490 SEL1L3 −0.34914 0.010248 ENSG00000158470 B4GALT5 0.337242 0.010302 ENSG00000079385 CEACAM1 0.768796 0.010342 ENSG00000171657 GPR82 0.753863 0.010342 ENSG00000114738 MAPKAPK3 0.321634 0.010371 ENSG00000218902 0.612011 0.010371 ENSG00000011426 ANLN 0.374663 0.010409 ENSG00000198799 LRIG2 −0.40015 0.010409 ENSG00000163346 PBXIP1 0.366554 0.010412 ENSG00000197629 MPEG1 1.049603 0.010423 ENSG00000224781 −0.40571 0.010424 ENSG00000133812 SBF2 −0.41489 0.010424 ENSG00000109458 GAB1 −0.45849 0.010426 ENSG00000123405 NFE2 0.505441 0.010426 ENSG00000170571 EMB −0.42231 0.010437 ENSG00000259820 −0.43299 0.010455 ENSG00000129353 SLC44A2 −0.42384 0.010464 ENSG00000119927 GPAM −0.38664 0.010475 ENSG00000136827 TOR1A 0.340841 0.010475 ENSG00000260260 SNHG19 0.610091 0.010475 ENSG00000063854 HAGH 0.464887 0.010493 ENSG00000113732 ATP6V0E1 0.327908 0.010515 ENSG00000213988 ZNF90 −1.03416 0.010515 ENSG00000198042 MAK16 −0.3464 0.010533 ENSG00000131495 NDUFA2 0.36482 0.010541 ENSG00000129245 FXR2 0.374511 0.010545 ENSG00000158402 CDC25C 0.600687 0.010549 ENSG00000229056 LOC101927482 −1.08033 0.010605 ENSG00000144668 ITGA9 0.41247 0.010619 ENSG00000245526 LINC00461 0.994123 0.010629 ENSG00000130590 SAMD10 0.475069 0.01065 ENSG00000148516 ZEB1 −0.45753 0.010665 ENSG00000169684 CHRNA5 −0.63776 0.010665 ENSG00000260521 LOC440311 0.37223 0.010674 ENSG00000119285 HEATR1 −0.32925 0.010735 ENSG00000216775 LOC730101 −0.75981 0.010785 ENSG00000197782 ZNF780A −0.43515 0.010804 ENSG00000169689 STRA13 0.413726 0.010834 ENSG00000227124 ZNF717 −0.57191 0.010834 ENSG00000167981 ZNF597 −0.52944 0.010839 ENSG00000128923 FAM63B −0.40709 0.010856 ENSG00000164933 SLC25A32 −0.38659 0.010869 ENSG00000115760 BIRC6 −0.39026 0.010877 ENSG00000225614 ZNF469 −0.45115 0.010877 ENSG00000130309 COLGALT1 0.350123 0.010881 ENSG00000170604 IRF2BP1 0.544559 0.01093 ENSG00000026652 AGPAT4 0.615482 0.010933 ENSG00000138756 BMP2K −0.35758 0.010933 ENSG00000021355 SERPINB1 0.366267 0.010979 ENSG00000115271 GCA 0.349492 0.010979 ENSG00000169131 ZNF354A −0.46837 0.010982 ENSG00000227039 ITGB2-AS1 0.958726 0.010982 ENSG00000132603 NIP7 −0.38594 0.011004 ENSG00000173214 MFSD4B −0.44772 0.011004 ENSG00000141854 LOC113230 0.983144 0.01107 ENSG00000169750 RAC3 0.565388 0.01107 ENSG00000181656 GPR88 0.773466 0.011101 ENSG00000166886 NAB2 0.367282 0.011108 ENSG00000090857 PDPR −0.33572 0.011145 ENSG00000145348 TBCK −0.43475 0.011149 ENSG00000197045 GMFB −0.38338 0.011149 ENSG00000112365 ZBTB24 −0.44299 0.011178 ENSG00000163947 ARHGEF3 −0.40291 0.011208 ENSG00000159210 SNF8 0.349008 0.011232 ENSG00000184924 PTRHD1 0.402211 0.011271 ENSG00000181284 TMEM102 0.459757 0.011303 ENSG00000196544 BORCS6 0.523666 0.011308 ENSG00000224668 −0.39703 0.011326 ENSG00000253797 UTP14C −0.3591 0.011326 ENSG00000160999 SH2B2 0.754382 0.011529 ENSG00000175467 SART1 0.364396 0.011573 ENSG00000126464 PRR12 0.419259 0.011623 ENSG00000151702 FLI1 −0.343 0.011667 ENSG00000005238 FAM214B 0.501137 0.011703 ENSG00000182141 ZNF708 −0.50464 0.011703 ENSG00000125901 MRPS26 0.418479 0.011746 ENSG00000161551 ZNF577 −0.48536 0.011746 ENSG00000117425 PTCH2 0.792648 0.011754 ENSG00000260174 0.659377 0.011755 ENSG00000105246 EBI3 1.053745 0.011757 ENSG00000115956 PLEK 0.465426 0.011757 ENSG00000171316 CHD7 −0.50519 0.011757 ENSG00000198113 TOR4A 0.361903 0.011757 ENSG00000184216 IRAK1 0.38948 0.011765 ENSG00000163644 PPM1K −0.70711 0.011767 ENSG00000179899 −0.7408 0.011802 ENSG00000013275 PSMC4 0.324979 0.011818 ENSG00000224557 HLA-DPB2 0.709314 0.011818 ENSG00000178150 ZNF114 −0.44284 0.011824 ENSG00000132640 BTBD3 −0.36937 0.011838 ENSG00000148429 USP6NL −0.37703 0.011838 ENSG00000167635 ZNF146 −0.31248 0.011842 ENSG00000104529 EEF1D 0.336321 0.011883 ENSG00000205885 C1RL-AS1 −0.45411 0.011883 ENSG00000106992 AK1 0.704702 0.011925 ENSG00000135763 URB2 −0.38384 0.011981 ENSG00000214425 −0.4896 0.011994 ENSG00000015171 ZMYND11 −0.33651 0.012005 ENSG00000221968 FADS3 −0.45157 0.012006 ENSG00000142002 DPP9 0.389368 0.012076 ENSG00000124181 PLCG1 −0.50186 0.012079 ENSG00000196642 RABL6 0.397775 0.012079 ENSG00000187535 IFT140 −0.48125 0.012123 ENSG00000225031 −0.39482 0.012123 ENSG00000132286 TIMM10B −0.34457 0.012128 ENSG00000110076 NRXN2 −0.93775 0.012139 ENSG00000163635 ATXN7 −0.35225 0.012183 ENSG00000157557 ETS2 −0.41834 0.012193 ENSG00000119685 TTLL5 −0.35916 0.012206 ENSG00000216740 0.745344 0.012206 ENSG00000151576 QTRT2 −0.34707 0.012227 ENSG00000176248 ANAPC2 0.38828 0.012227 ENSG00000230067 −0.80936 0.012227 ENSG00000005206 SPPL2B 0.409726 0.01227 ENSG00000067369 TP53BP1 −0.34488 0.01227 ENSG00000130520 LSM4 0.333674 0.012317 ENSG00000119508 NR4A3 1.022915 0.012326 ENSG00000104408 EIF3E −0.32958 0.012395 ENSG00000125445 MRPS7 0.327378 0.012395 ENSG00000135269 TES −0.41072 0.012395 ENSG00000166780 C16orf45 0.870814 0.012395 ENSG00000184076 UQCR10 0.321872 0.012402 ENSG00000105677 TMEM147 0.373009 0.012445 ENSG00000169908 TM4SF1 −0.4805 0.012445 ENSG00000174917 C19orf70 0.426187 0.012518 ENSG00000173456 RNF26 0.345089 0.012526 ENSG00000181744 C3orf58 −0.35189 0.012557 ENSG00000259706 HSP90B2P 0.334604 0.012557 ENSG00000151461 UPF2 −0.34156 0.012586 ENSG00000186815 TPCN1 0.468129 0.012589 ENSG00000124279 FASTKD3 −0.37092 0.012596 ENSG00000122591 FAM126A −0.42285 0.012612 ENSG00000026751 SLAMF7 1.07919 0.012622 ENSG00000067900 ROCK1 −0.36692 0.012622 ENSG00000105793 GTPBP10 −0.38413 0.012622 ENSG00000107560 RAB11FIP2 −0.44531 0.012622 ENSG00000233859 −0.38753 0.01276 ENSG00000014257 ACPP 0.426131 0.01276 ENSG00000232952 −0.39394 0.012824 ENSG00000116514 RNF19B 0.380027 0.012852 ENSG00000122035 RASL11A 0.618188 0.012852 ENSG00000115652 UXS1 0.36139 0.012897 ENSG00000049246 PER3 −0.72737 0.012903 ENSG00000135956 TMEM127 0.355413 0.012914 ENSG00000128915 ICE2 −0.32405 0.012929 ENSG00000240950 0.353149 0.012946 ENSG00000240849 TMEM189 0.389936 0.01297 ENSG00000106772 PRUNE2 0.417699 0.012977 ENSG00000188986 NELFB 0.360876 0.012977 ENSG00000118507 AKAP7 −0.50664 0.012981 ENSG00000136235 GPNMB 1.034689 0.012981 ENSG00000155792 DEPTOR −0.48515 0.012987 ENSG00000158483 FAM86C1 −0.68446 0.012994 ENSG00000114541 FRMD4B −0.42536 0.013 ENSG00000162191 UBXN1 0.323255 0.013022 ENSG00000131848 ZSCAN5A 0.467439 0.013027 ENSG00000151062 CACNA2D4 0.353888 0.013027 ENSG00000183808 RBM12B −0.41428 0.013042 ENSG00000197818 SLC9A8 0.377601 0.01309 ENSG00000156206 CFAP161 −0.61974 0.013096 ENSG00000197894 ADH5 −0.33344 0.013096 ENSG00000080200 CRYBG3 −0.37086 0.013098 ENSG00000044574 HSPA5 0.335193 0.013117 ENSG00000104361 NIPAL2 −0.40419 0.013117 ENSG00000196208 GREB1 0.981319 0.013117 ENSG00000134243 SORT1 0.308811 0.013141 ENSG00000149428 HYOU1 0.368029 0.013176 ENSG00000163803 PLB1 0.31724 0.013176 ENSG00000114395 CYB561D2 0.452081 0.0132 ENSG00000143543 JTB 0.326948 0.013201 ENSG00000104979 C19orf53 0.326483 0.013244 ENSG00000172725 CORO1B 0.422568 0.013263 ENSG00000264736 −0.97639 0.013263 ENSG00000114450 GNB4 −0.42255 0.013274 ENSG00000129003 VPS13C −0.42506 0.01329 ENSG00000132589 FLOT2 0.345753 0.013295 ENSG00000185100 ADSSL1 −0.98152 0.013334 ENSG00000135404 CD63 0.316073 0.013404 ENSG00000101997 CCDC22 0.387021 0.013404 ENSG00000112685 EXOC2 −0.34561 0.013404 ENSG00000049130 KITLG −0.37122 0.013408 ENSG00000160392 C19orf47 0.460958 0.013435 ENSG00000170365 SMAD1 −0.50504 0.013435 ENSG00000197245 FAM110D −1.04983 0.013501 ENSG00000229124 VIM-AS1 −0.53921 0.013501 ENSG00000234389 0.896711 0.013529 ENSG00000112514 CUTA 0.348171 0.013535 ENSG00000185640 KRT79 0.913288 0.01354 ENSG00000070047 PHRF1 0.451426 0.013575 ENSG00000130856 ZNF236 −0.40032 0.013577 ENSG00000092439 TRPM7 −0.33353 0.013581 ENSG00000123213 NLN −0.32466 0.013603 ENSG00000204560 DHX16 0.353114 0.013603 ENSG00000177380 PPFIA3 0.55311 0.01361 ENSG00000198040 ZNF84 −0.31735 0.013634 ENSG00000186792 HYAL3 0.388726 0.013659 ENSG00000152778 IFIT5 −0.7009 0.013659 ENSG00000167261 DPEP2 −0.55786 0.013659 ENSG00000136877 FPGS 0.349661 0.013662 ENSG00000172336 POP7 0.455015 0.013677 ENSG00000088808 PPP1R13B −0.36649 0.013685 ENSG00000144591 GMPPA 0.390666 0.013693 ENSG00000117597 DIEXF −0.36365 0.013759 ENSG00000225101 0.528354 0.01376 ENSG00000104231 ZFAND1 −0.34705 0.01376 ENSG00000081386 ZNF510 −0.3915 0.013788 ENSG00000124151 NCOA3 −0.3311 0.013788 ENSG00000163344 PMVK 0.44441 0.013788 ENSG00000182580 EPHB3 −0.59382 0.013797 ENSG00000163050 ADCK3 0.406695 0.013817 ENSG00000146733 PSPH −0.49692 0.013858 ENSG00000167695 FAM57A 0.502993 0.013858 ENSG00000141349 G6PC3 0.345848 0.013943 ENSG00000198315 ZKSCAN8 −0.33439 0.014023 ENSG00000140262 TCF12 −0.33117 0.014033 ENSG00000213281 NRAS −0.34727 0.014034 ENSG00000013810 TACC3 0.323835 0.014052 ENSG00000091106 NLRC4 0.648623 0.014084 ENSG00000167384 ZNF180 −0.43404 0.014086 ENSG00000141456 PELP1 0.359821 0.014086 ENSG00000182481 KPNA2 0.309044 0.014104 ENSG00000165813 CCDC186 −0.36348 0.014179 ENSG00000197976 AKAP17A 0.390163 0.014179 ENSG00000166595 FAM96B 0.355671 0.014226 ENSG00000185022 MAFF 0.706915 0.014226 ENSG00000177666 PNPLA2 0.385427 0.01424 ENSG00000264868 0.804432 0.014252 ENSG00000204623 ZNRD1ASP −0.5246 0.014277 ENSG00000103254 FAM173A 0.718589 0.014319 ENSG00000262879 −0.5212 0.014319 ENSG00000152193 RNF219 −0.34463 0.014429 ENSG00000171681 ATF7IP −0.39436 0.014444 ENSG00000118515 SGK1 0.984024 0.01445 ENSG00000166484 MAPK7 0.484286 0.014551 ENSG00000074071 MRPS34 0.426035 0.014553 ENSG00000181555 SETD2 −0.31194 0.014619 ENSG00000104142 VPS18 0.39174 0.014646 ENSG00000234883 MIR155HG 0.494612 0.014669 ENSG00000100612 DHRS7 0.313222 0.014689 ENSG00000225339 −0.80118 0.014707 ENSG00000115827 DCAF17 −0.35159 0.014711 ENSG00000175489 LRRC25 0.652731 0.014727 ENSG00000105321 CCDC9 0.438556 0.014819 ENSG00000064763 FAR2 −0.34699 0.014843 ENSG00000186174 BCL9L 0.441401 0.014873 ENSG00000077150 NFKB2 1.057873 0.014895 ENSG00000122729 ACO1 −0.37633 0.014945 ENSG00000138286 FAM149B1 −0.42645 0.014966 ENSG00000077713 SLC25A43 −0.46184 0.015101 ENSG00000198182 ZNF607 −0.54784 0.015103 ENSG00000085224 ATRX −0.38218 0.015267 ENSG00000198258 UBL5 0.328192 0.015267 ENSG00000150776 C11orf57 −0.33093 0.015275 ENSG00000185800 DMWD 0.850885 0.015275 ENSG00000228782 −0.65604 0.01528 ENSG00000105220 GPI 0.2952 0.015303 ENSG00000123600 METTL8 −0.36302 0.015338 ENSG00000137166 FOXP4 0.357265 0.015391 ENSG00000173581 CCDC106 0.412999 0.015394 ENSG00000170801 HTRA3 −0.36635 0.015397 ENSG00000173276 ZBTB21 −0.40078 0.015403 ENSG00000235008 0.616643 0.015505 ENSG00000111348 ARHGDIB 0.297669 0.015513 ENSG00000113811 SELK 0.409979 0.015513 ENSG00000176170 SPHK1 0.491069 0.015513 ENSG00000068394 GPKOW 0.36159 0.015534 ENSG00000170759 KIF5B −0.31418 0.015575 ENSG00000149948 HMGA2 −0.57885 0.015594 ENSG00000184675 AMER1 −0.48263 0.01563 ENSG00000092148 HECTD1 −0.3224 0.015766 ENSG00000047849 MAP4 −0.31357 0.015779 ENSG00000162591 MEGF6 −0.4735 0.015862 ENSG00000125611 CHCHD5 0.553941 0.015863 ENSG00000165494 PCF11 −0.33591 0.015896 ENSG00000125746 EML2 0.420953 0.015956 ENSG00000114812 VIPR1 −0.9793 0.016056 ENSG00000137310 TCF19 0.41455 0.016115 ENSG00000119714 GPR68 0.552781 0.016126 ENSG00000198945 L3MBTL3 −0.46468 0.016159 ENSG00000084207 GSTP1 0.324333 0.01616 ENSG00000078061 ARAF 0.323925 0.016191 ENSG00000254023 0.687628 0.01625 ENSG00000168487 BMP1 0.357279 0.016258 ENSG00000119599 DCAF4 −0.39886 0.016277 ENSG00000186260 MKL2 −0.40909 0.016303 ENSG00000187244 BCAM −0.90047 0.016304 ENSG00000167716 WDR81 0.397568 0.016335 ENSG00000165046 LETM2 −0.67729 0.016366 ENSG00000149806 FAU 0.334272 0.01637 ENSG00000265798 −0.96604 0.016385 ENSG00000185989 RASA3 0.391244 0.016401 ENSG00000168209 DDIT4 0.436722 0.01641 ENSG00000125744 RTN2 0.427787 0.016495 ENSG00000180509 KCNE1 0.889413 0.01654 ENSG00000059378 PARP12 −0.43934 0.01658 ENSG00000104964 AES 0.321062 0.016599 ENSG00000133121 STARD13 −0.40945 0.016622 ENSG00000164970 FAM219A −0.46035 0.016668 ENSG00000114670 NEK11 −0.74338 0.016706 ENSG00000156515 HK1 0.449485 0.016706 ENSG00000198026 ZNF335 0.334518 0.016706 ENSG00000139508 SLC46A3 −0.897 0.016732 ENSG00000204394 VARS 0.331075 0.016736 ENSG00000214021 TTLL3 0.42308 0.016789 ENSG00000116521 SCAMP3 0.323788 0.01682 ENSG00000130311 DDA1 0.355065 0.016832 ENSG00000089048 ESF1 −0.36032 0.01684 ENSG00000158006 PAFAH2 0.472176 0.016859 ENSG00000160229 −0.84871 0.016898 ENSG00000235106 LINC00094 −0.46357 0.016898 ENSG00000085491 SLC25A24 −0.38545 0.016914 ENSG00000271533 −0.51986 0.016923 ENSG00000100591 AHSA1 0.305284 0.017015 ENSG00000145907 G3BP1 −0.32549 0.017052 ENSG00000115165 CYTIP 0.417046 0.01708 ENSG00000151304 SRFBP1 −0.3707 0.01708 ENSG00000225774 0.572657 0.017131 ENSG00000103966 EHD4 −0.36864 0.017146 ENSG00000102226 USP11 −0.36111 0.017172 ENSG00000126602 TRAP1 0.316072 0.017185 ENSG00000188906 LRRK2 1.038937 0.017185 ENSG00000119333 WDR34 0.461458 0.017244 ENSG00000107745 MICU1 0.304142 0.017428 ENSG00000114026 OGG1 0.416631 0.017502 ENSG00000163558 PRKCI −0.36599 0.017502 ENSG00000166171 DPCD −0.49396 0.017502 ENSG00000119471 HSDL2 −0.38966 0.017512 ENSG00000143624 INTS3 −0.34154 0.017552 ENSG00000125730 C3 1.002051 0.017601 ENSG00000145332 KLHL8 −0.38485 0.017631 ENSG00000197372 ZNF675 −0.38573 0.017631 ENSG00000128309 MPST 0.349323 0.017643 ENSG00000186567 CEACAM19 0.74644 0.017793 ENSG00000104133 SPG11 −0.32743 0.017795 ENSG00000162129 CLPB 0.345385 0.017847 ENSG00000169251 NMD3 −0.3379 0.01787 ENSG00000154328 NEIL2 −0.52585 0.017872 ENSG00000106723 SPIN1 −0.31268 0.01796 ENSG00000148200 NR6A1 −0.36579 0.018058 ENSG00000133816 MICAL2 −0.40467 0.018061 ENSG00000135164 DMTF1 −0.31832 0.018066 ENSG00000135845 PIGC 0.344742 0.018104 ENSG00000166170 BAG5 −0.3107 0.018145 ENSG00000129277 1.033495 0.018233 ENSG00000124155 PIGT 0.321837 0.018415 ENSG00000255521 LOC100507144 −0.9308 0.018418 ENSG00000087053 MTMR2 −0.32896 0.018442 ENSG00000145545 SRD5A1 −0.40165 0.01846 ENSG00000164220 F2RL2 −0.85055 0.018481 ENSG00000096717 SIRT1 −0.35613 0.018484 ENSG00000176043 0.329105 0.018484 ENSG00000114062 UBE3A −0.30877 0.018699 ENSG00000059377 TBXAS1 −0.35526 0.018723 ENSG00000152229 PSTPIP2 0.385048 0.018723 ENSG00000175348 TMEM9B 0.3542 0.018784 ENSG00000229676 ZNF492 −0.95522 0.018784 ENSG00000163320 CGGBP1 −0.29617 0.018804 ENSG00000126217 MCF2L −0.59629 0.01882 ENSG00000146757 ZNF92 −0.35791 0.018841 ENSG00000105849 TWISTNB −0.31091 0.018919 ENSG00000010404 IDS −0.29113 0.01892 ENSG00000260997 −0.39195 0.018922 ENSG00000049249 TNFRSF9 1.002059 0.018935 ENSG00000057704 TMCC3 0.695944 0.018935 ENSG00000138642 HERC6 −0.43882 0.019021 ENSG00000213024 NUP62 0.311966 0.019038 ENSG00000102572 STK24 −0.43657 0.019043 ENSG00000169727 GPS1 0.356225 0.019043 ENSG00000247556 −0.29948 0.019043 ENSG00000210195 0.397185 0.019101 ENSG00000125485 DDX31 −0.34593 0.019129 ENSG00000101751 POLI −0.38303 0.019137 ENSG00000072506 HSD17B10 0.350219 0.019165 ENSG00000168874 ATOH8 0.868057 0.019165 ENSG00000071553 ATP6AP1 0.340705 0.019174 ENSG00000101181 MTG2 0.360927 0.019222 ENSG00000162994 CLHC1 −0.49184 0.019268 ENSG00000179833 SERTAD2 0.354807 0.019268 ENSG00000213762 ZNF134 −0.36046 0.019274 ENSG00000215030 0.31134 0.019342 ENSG00000130038 CRACR2A −0.4027 0.0194 ENSG00000227028 SLC8A1-AS1 −0.66748 0.019445 ENSG00000114648 KLHL18 −0.34559 0.019458 ENSG00000115828 QPCT −0.82479 0.019512 ENSG00000008283 CYB561 −0.42764 0.019525 ENSG00000140451 PIF1 0.526924 0.019607 ENSG00000143387 CTSK 0.646784 0.019669 ENSG00000163482 STK36 −0.36939 0.019669 ENSG00000197933 ZNF823 −0.59564 0.019669 ENSG00000187961 KLHL17 0.601641 0.019694 ENSG00000187240 DYNC2H1 −0.35826 0.019733 ENSG00000165802 NSMF 0.369289 0.019785 ENSG00000145476 CYP4V2 −0.46962 0.019879 ENSG00000108679 LGALS3BP −0.89556 0.019936 ENSG00000167984 NLRC3 −0.46599 0.019973 ENSG00000171729 TMEM51 0.456752 0.019981 ENSG00000105379 ETFB 0.389602 0.020002 ENSG00000171608 PIK3CD 0.313072 0.02001 ENSG00000099998 GGT5 0.359615 0.02003 ENSG00000129315 CCNT1 −0.32833 0.02003 ENSG00000150782 IL18 −0.31711 0.02003 ENSG00000125877 ITPA 0.363379 0.020107 ENSG00000170909 OSCAR 0.520238 0.020119 ENSG00000133943 C14orf159 −0.3214 0.020135 ENSG00000170234 PWWP2A −0.33327 0.020136 ENSG00000203667 COX20 −0.38024 0.020144 ENSG00000069966 GNB5 0.387871 0.020152 ENSG00000104324 CPQ 0.581175 0.020183 ENSG00000112984 KIF20A 0.371093 0.020183 ENSG00000152223 EPG5 0.457698 0.020183 ENSG00000244313 0.311551 0.020183 ENSG00000261040 WFDC21P 0.87474 0.020267 ENSG00000125844 RRBP1 0.335253 0.020274 ENSG00000250746 0.399875 0.020274 ENSG00000198791 CNOT7 −0.31186 0.020323 ENSG00000077782 FGFR1 −0.62953 0.020332 ENSG00000100319 ZMAT5 0.462102 0.020332 ENSG00000204673 AKT1S1 0.377648 0.020332 ENSG00000196605 ZNF846 −0.66797 0.020375 ENSG00000080546 SESN1 −0.37361 0.020396 ENSG00000116044 NFE2L2 0.397413 0.020448 ENSG00000103351 CLUAP1 −0.44507 0.020488 ENSG00000179271 GADD45GIP1 0.386041 0.020541 ENSG00000229325 −0.93666 0.02055 ENSG00000196705 ZNF431 −0.3761 0.020557 ENSG00000127954 STEAP4 0.940207 0.02056 ENSG00000140396 NCOA2 −0.38219 0.020562 ENSG00000146670 CDCA5 0.343328 0.020562 ENSG00000141219 C17orf80 −0.36262 0.02062 ENSG00000186687 LYRM7 −0.31958 0.020744 ENSG00000054523 KIF1B −0.33297 0.020757 ENSG00000113648 H2AFY −0.29217 0.020785 ENSG00000196646 ZNF136 −0.39925 0.020827 ENSG00000144043 TEX261 0.301679 0.020856 ENSG00000176619 LMNB2 0.331476 0.020856 ENSG00000110711 AIP 0.35025 0.0209 ENSG00000095951 HIVEP1 0.470705 0.02093 ENSG00000188305 C19orf35 0.788209 0.020944 ENSG00000143669 LYST 0.416344 0.021069 ENSG00000064666 CNN2 −0.30943 0.021103 ENSG00000185052 SLC24A3 0.430846 0.021113 ENSG00000078246 TULP3 −0.48125 0.02118 ENSG00000106261 ZKSCAN1 −0.35684 0.021188 ENSG00000225531 −0.58712 0.021188 ENSG00000140006 WDR89 −0.35806 0.02124 ENSG00000127580 WDR24 0.506236 0.021323 ENSG00000155099 TMEM55A 0.398765 0.021393 ENSG00000122376 FAM35A −0.35618 0.021415 ENSG00000226745 0.530568 0.021587 ENSG00000126878 AIF1L 0.848325 0.021619 ENSG00000272216 −0.83117 0.021619 ENSG00000119537 KDSR −0.34862 0.021659 ENSG00000095383 TBC1D2 0.566466 0.021787 ENSG00000104490 NCALD −0.43529 0.021787 ENSG00000074621 SLC24A1 −0.474 0.021853 ENSG00000163939 PBRM1 −0.34291 0.021853 ENSG00000105618 PRPF31 0.36142 0.021887 ENSG00000144893 MED12L 0.562771 0.021927 ENSG00000107719 PALD1 0.386769 0.021962 ENSG00000007968 E2F2 0.448596 0.021997 ENSG00000104218 CSPP1 −0.36482 0.02202 ENSG00000090266 NDUFB2 0.320259 0.022084 ENSG00000120832 MTERF2 −0.64221 0.022181 ENSG00000154928 EPHB1 0.833119 0.022282 ENSG00000124789 NUP153 −0.28915 0.02236 ENSG00000009413 REV3L −0.37217 0.02237 ENSG00000164902 PHAX −0.32807 0.022439 ENSG00000036549 ZZZ3 −0.30296 0.022518 ENSG00000152061 RABGAP1L −0.32232 0.022558 ENSG00000139687 RB1 −0.31137 0.022612 ENSG00000137563 GGH 0.388416 0.022623 ENSG00000183020 AP2A2 0.318087 0.022651 ENSG00000133136 0.47206 0.022769 ENSG00000271122 −0.55625 0.022781 ENSG00000198298 ZNF485 −0.51783 0.022937 ENSG00000085982 USP40 −0.33656 0.022974 ENSG00000159110 IFNAR2 0.405426 0.022974 ENSG00000145777 TSLP 0.922049 0.023001 ENSG00000228234 0.732532 0.023001 ENSG00000085063 CD59 −0.29931 0.023117 ENSG00000168283 BMI1 −0.37924 0.023172 ENSG00000153443 UBALD1 0.453341 0.02321 ENSG00000118058 KMT2A −0.36373 0.02328 ENSG00000117877 CD3EAP −0.4014 0.023327 ENSG00000137494 ANKRD42 −0.39567 0.02343 ENSG00000089820 ARHGAP4 0.359507 0.023441 ENSG00000163464 CXCR1 0.848976 0.023451 ENSG00000168701 TMEM208 0.363526 0.023455 ENSG00000188868 ZNF563 −0.80716 0.023455 ENSG00000136874 STX17 −0.36515 0.023476 ENSG00000156795 WDYHV1 −0.42776 0.023476 ENSG00000102189 EEA1 −0.40215 0.023545 ENSG00000186834 HEXIM1 0.30345 0.023545 ENSG00000075407 ZNF37A −0.33278 0.023567 ENSG00000197771 MCMBP −0.3037 0.023595 ENSG00000163577 EIF5A2 0.531702 0.023696 ENSG00000057935 MTA3 −0.34644 0.023708 ENSG00000165912 PACSIN3 0.591926 0.023708 ENSG00000249212 0.953121 0.023708 ENSG00000154174 TOMM70 −0.28936 0.023762 ENSG00000136158 SPRY2 0.459084 0.023785 ENSG00000149557 FEZ1 −0.88327 0.023793 ENSG00000005007 UPF1 0.306402 0.023849 ENSG00000162852 CNST −0.32011 0.023889 ENSG00000102996 MMP15 −0.42341 0.023905 ENSG00000184898 RBM43 −0.43736 0.023905 ENSG00000187808 SOWAHD 0.744901 0.023905 ENSG00000135709 KIAA0513 0.4604 0.023917 ENSG00000258469 0.465711 0.023926 ENSG00000005801 ZNF195 −0.31268 0.023933 ENSG00000139597 N4BP2L1 0.574835 0.023933 ENSG00000179632 MAF1 0.299893 0.023933 ENSG00000205189 ZBTB10 −0.40126 0.023933 ENSG00000241732 −0.73095 0.023933 ENSG00000167766 ZNF83 −0.34359 0.023945 ENSG00000112701 SENP6 −0.29093 0.023959 ENSG00000197746 PSAP 0.349872 0.023964 ENSG00000163564 PYHIN1 −0.63785 0.023974 ENSG00000168778 TCTN2 −0.52485 0.023974 ENSG00000110721 CHKA 0.351772 0.024094 ENSG00000117318 ID3 0.558227 0.024179 ENSG00000138385 SSB −0.32147 0.024179 ENSG00000138768 USO1 −0.29221 0.024179 ENSG00000173621 LRFN4 0.442872 0.024179 ENSG00000222041 LINC00152 −0.50437 0.024179 ENSG00000130684 ZNF337 −0.37767 0.024238 ENSG00000197969 VPS13A −0.36939 0.024238 ENSG00000196411 EPHB4 −0.41322 0.024274 ENSG00000196923 PDLIM7 0.365292 0.024331 ENSG00000150779 TIMM8B 0.35747 0.024394 ENSG00000137145 DENND4C −0.32295 0.024449 ENSG00000198517 MAFK 0.399834 0.024501 ENSG00000049883 PTCD2 −0.4439 0.024624 ENSG00000173137 ADCK5 0.553303 0.024624 ENSG00000105245 NUMBL 0.463165 0.024639 ENSG00000237940 LOC102723927 −0.81826 0.024639 ENSG00000138398 PPIG −0.31634 0.024644 ENSG00000056586 RC3H2 −0.3211 0.024678 ENSG00000063046 EIF4B −0.28297 0.024678 ENSG00000143815 LBR 0.387129 0.024684 ENSG00000117748 RPA2 0.327339 0.024688 ENSG00000106605 BLVRA −0.50804 0.024788 ENSG00000119446 RBM18 −0.31131 0.024788 ENSG00000196850 PPTC7 −0.29547 0.024788 ENSG00000254986 DPP3 0.34047 0.024788 ENSG00000107263 RAPGEF1 0.360296 0.024817 ENSG00000244300 0.517129 0.024845 ENSG00000117394 SLC2A1 0.374094 0.024867 ENSG00000147124 ZNF41 −0.35725 0.024867 ENSG00000103342 GSPT1 −0.28353 0.024962 ENSG00000181418 DDN 0.779313 0.025036 ENSG00000116685 KIAA2013 0.323737 0.025065 ENSG00000146243 IRAK1BP1 −0.57508 0.025065 ENSG00000197165 SULT1A2 0.954527 0.025131 ENSG00000260686 −0.7628 0.025218 ENSG00000174600 CMKLR1 −0.51721 0.025236 ENSG00000197563 PIGN −0.32631 0.025333 ENSG00000206560 ANKRD28 −0.36899 0.025577 ENSG00000163596 ICA1L −0.46809 0.025632 ENSG00000154025 SLC5A10 0.905291 0.025898 ENSG00000169230 PRELID1 0.299176 0.025898 ENSG00000039650 PNKP 0.40822 0.025926 ENSG00000108509 CAMTA2 0.340211 0.025926 ENSG00000237984 PTENP1 −0.3686 0.026077 ENSG00000122644 ARL4A 0.316265 0.026166 ENSG00000100647 SUSD6 0.367085 0.026204 ENSG00000260742 −0.62793 0.026379 ENSG00000204165 CXorf65 0.929109 0.02639 ENSG00000128040 SPINK2 −0.44294 0.026499 ENSG00000175203 DCTN2 0.29003 0.026516 ENSG00000164611 PTTG1 0.400525 0.026597 ENSG00000087299 L2HGDH 0.374687 0.026604 ENSG00000002726 AOC1 0.884236 0.026646 ENSG00000132953 XPO4 −0.36519 0.026668 ENSG00000170296 GABARAP 0.593572 0.02667 ENSG00000178980 SEPW1 0.311717 0.026681 ENSG00000144362 PHOSPHO2 −0.65653 0.026734 ENSG00000106400 ZNHIT1 0.33501 0.026754 ENSG00000182185 RAD51B −0.53524 0.026904 ENSG00000173166 RAPH1 0.800682 0.026959 ENSG00000113758 DBN1 0.398196 0.027143 ENSG00000150712 MTMR12 −0.32156 0.027143 ENSG00000198839 ZNF277 −0.33829 0.027216 ENSG00000219626 FAM228B −0.58354 0.027256 ENSG00000011478 QPCTL 0.451354 0.027275 ENSG00000153879 CEBPG −0.29905 0.027287 ENSG00000166689 PLEKHA7 0.471087 0.027287 ENSG00000130812 ANGPTL6 0.457456 0.027315 ENSG00000110651 CD81 0.339445 0.027332 ENSG00000149485 FADS1 −0.36693 0.027373 ENSG00000089091 DZANK1 −0.61829 0.027424 ENSG00000105879 CBLL1 −0.30116 0.027425 ENSG00000163811 WDR43 −0.33914 0.02755 ENSG00000170144 HNRNPA3 −0.33744 0.027553 ENSG00000173020 ADRBK1 0.29623 0.027553 ENSG00000188747 NOXA1 0.617365 0.027575 ENSG00000196562 SULF2 −0.82624 0.027575 ENSG00000149541 B3GAT3 0.450824 0.027632 ENSG00000166068 SPRED1 −0.41663 0.027649 ENSG00000140718 FTO −0.34405 0.027654 ENSG00000215301 DDX3X −0.30433 0.027667 ENSG00000158792 SPATA2L 0.519296 0.027719 ENSG00000175387 SMAD2 −0.30655 0.027719 ENSG00000244682 0.947384 0.027719 ENSG00000183963 SMTN 0.389893 0.027743 ENSG00000197483 ZNF628 0.698839 0.027743 ENSG00000185000 DGAT1 0.329762 0.027845 ENSG00000184481 FOXO4 0.505257 0.02791 ENSG00000100442 FKBP3 −0.3485 0.027921 ENSG00000128159 TUBGCP6 0.328568 0.027934 ENSG00000049239 H6PD −0.35294 0.027969 ENSG00000128581 IFT22 −0.47934 0.027969 ENSG00000163104 SMARCAD1 −0.30162 0.027969 ENSG00000165283 STOML2 0.311615 0.028019 ENSG00000214160 ALG3 0.319024 0.028077 ENSG00000136930 PSMB7 0.29736 0.02808 ENSG00000110911 SLC11A2 0.382491 0.028093 ENSG00000107854 TNKS2 −0.29414 0.028181 ENSG00000145012 LPP −0.33129 0.028181 ENSG00000226535 0.380353 0.028181 ENSG00000169592 INO80E 0.331217 0.028182 ENSG00000013583 HEBP1 −0.34755 0.028203 ENSG00000050344 NFE2L3 0.512603 0.028218 ENSG00000158481 CD1C 0.925001 0.028221 ENSG00000079308 TNS1 0.368817 0.028267 ENSG00000186448 ZNF197 −0.31257 0.028328 ENSG00000131013 PPIL4 −0.33804 0.028331 ENSG00000133794 ARNTL 0.423379 0.028331 ENSG00000183742 MACC1 0.438106 0.028331 ENSG00000092068 SLC7A8 0.623359 0.028331 ENSG00000091009 RBM27 −0.32286 0.028367 ENSG00000104853 CLPTM1 0.314041 0.028387 ENSG00000110063 DCPS 0.336695 0.028533 ENSG00000137574 TGS1 −0.30443 0.028533 ENSG00000180771 −0.40431 0.028546 ENSG00000186470 BTN3A2 −0.44468 0.028573 ENSG00000213079 SCAF8 −0.29291 0.028575 ENSG00000259985 −0.60376 0.028575 ENSG00000127980 PEX1 −0.3771 0.028578 ENSG00000180304 OAZ2 0.316203 0.028596 ENSG00000074219 TEAD2 −0.75243 0.028725 ENSG00000167005 NUDT21 −0.31693 0.028797 ENSG00000085840 ORC1 0.322102 0.028798 ENSG00000113328 CCNG1 −0.29773 0.028798 ENSG00000234130 −0.38615 0.028889 ENSG00000213516 RBMXL1 −0.31033 0.028915 ENSG00000181904 C5orf24 −0.29326 0.028928 ENSG00000197021 CXorf40B 0.366028 0.028928 ENSG00000072163 LIMS2 −0.70671 0.028958 ENSG00000182858 ALG12 0.373935 0.028958 ENSG00000213462 ERV3-1 −0.37946 0.029015 ENSG00000100815 TRIP11 −0.32467 0.029028 ENSG00000174100 −0.30252 0.029028 ENSG00000105229 PIAS4 0.371897 0.02908 ENSG00000187634 SAMD11 −0.59373 0.029122 ENSG00000197147 LRRC8B −0.32476 0.029274 ENSG00000267002 −0.57749 0.029274 ENSG00000117009 KMO 0.919167 0.029307 ENSG00000166508 MCM7 0.323116 0.029331 ENSG00000065970 FOXJ2 0.463358 0.029594 ENSG00000273151 0.66487 0.029594 ENSG00000105771 SMG9 0.329576 0.029599 ENSG00000168675 LDLRAD4 −0.39528 0.029616 ENSG00000198455 ZXDB −0.42742 0.02981 ENSG00000205755 CRLF2 0.879343 0.029879 ENSG00000272505 0.885555 0.02996 ENSG00000130748 TMEM160 0.740945 0.029998 ENSG00000235438 0.823886 0.030017 ENSG00000168938 PPIC −0.87125 0.030055 ENSG00000065150 IPO5 −0.29414 0.030085 ENSG00000245849 RAD51-AS1 −0.75536 0.030141 ENSG00000263327 TAPT1-AS1 −0.61552 0.030195 ENSG00000163975 MELTF 0.419286 0.030222 ENSG00000118705 RPN2 0.284049 0.030237 ENSG00000164151 ICE1 −0.29305 0.030237 ENSG00000167264 DUS2 0.364037 0.030237 ENSG00000237161 −0.38978 0.030237 ENSG00000181894 ZNF329 −0.45354 0.030267 ENSG00000065183 WDR3 −0.31717 0.030287 ENSG00000120137 PANK3 −0.30984 0.030349 ENSG00000078124 ACER3 0.420996 0.030355 ENSG00000083168 KAT6A −0.32245 0.030424 ENSG00000110066 KMT5B −0.29024 0.030424 ENSG00000174744 BRMS1 0.368008 0.030476 ENSG00000180488 FAM73A −0.40588 0.030476 ENSG00000196659 TTC30B −0.54917 0.030506 ENSG00000142459 EVI5L 0.448094 0.030556 ENSG00000204592 HLA-E 0.286317 0.030692 ENSG00000172009 THOP1 0.313926 0.030747 ENSG00000130669 PAK4 0.382129 0.03078 ENSG00000116337 AMPD2 0.340953 0.030804 ENSG00000116497 S100PBP −0.33473 0.030866 ENSG00000136628 EPRS −0.31548 0.030954 ENSG00000111752 PHC1 −0.74152 0.030979 ENSG00000235437 LINC01278 −0.39621 0.031027 ENSG00000039123 SKIV2L2 −0.28796 0.031078 ENSG00000143751 SDE2 −0.31529 0.031078 ENSG00000111859 NEDD9 0.340948 0.031082 ENSG00000103174 NAGPA 0.374278 0.031088 ENSG00000243445 0.520097 0.031088 ENSG00000126267 COX6B1 0.338242 0.031103 ENSG00000213107 0.875174 0.031244 ENSG00000226986 0.436808 0.031382 ENSG00000182809 CRIP2 −0.54655 0.031566 ENSG00000111731 C2CD5 −0.31234 0.031574 ENSG00000107551 RASSF4 0.819833 0.03162 ENSG00000107902 LHPP −0.39798 0.031688 ENSG00000241781 0.762712 0.031763 ENSG00000198909 MAP3K3 0.378166 0.031763 ENSG00000171858 RPS21 0.26898 0.031816 ENSG00000164338 UTP15 −0.32461 0.031817 ENSG00000228305 0.396302 0.031855 ENSG00000161813 LARP4 −0.30495 0.031857 ENSG00000137522 RNF121 0.383089 0.031873 ENSG00000067533 RRP15 −0.34856 0.031875 ENSG00000173275 ZNF449 −0.42403 0.031875 ENSG00000165959 CLMN −0.79295 0.031882 ENSG00000100075 SLC25A1 0.330826 0.032019 ENSG00000104946 TBC1D17 0.561834 0.032045 ENSG00000156976 EIF4A2 −0.27432 0.032045 ENSG00000129515 SNX6 −0.28839 0.032069 ENSG00000124164 VAPB −0.31993 0.032368 ENSG00000099194 SCD −0.34186 0.03237 ENSG00000267796 LIN37 0.691438 0.032376 ENSG00000188976 NOC2L 0.315468 0.032595 ENSG00000111775 COX6A1 0.34457 0.032612 ENSG00000085514 PILRA 0.920088 0.03265 ENSG00000082074 FYB −0.31139 0.032662 ENSG00000136643 RPS6KC1 −0.32265 0.032714 ENSG00000198642 KLHL9 −0.29631 0.032714 ENSG00000029725 RABEP1 −0.27732 0.032756 ENSG00000129317 PUS7L −0.41455 0.032814 ENSG00000076928 ARHGEF1 0.357442 0.032867 ENSG00000104131 EIF3J −0.29419 0.032936 ENSG00000141582 CBX4 0.436496 0.032954 ENSG00000124813 RUNX2 0.672625 0.033101 ENSG00000125970 RALY 0.303775 0.033128 ENSG00000103994 ZNF106 −0.29326 0.033193 ENSG00000172840 PDP2 −0.44534 0.033231 ENSG00000169221 TBC1D10B 0.289223 0.033232 ENSG00000213820 0.784087 0.033326 ENSG00000175455 CCDC14 −0.29867 0.033334 ENSG00000085449 WDFY1 −0.29306 0.033355 ENSG00000102743 SLC25A15 −0.40501 0.033355 ENSG00000197903 HIST1H2BK −0.39326 0.033355 ENSG00000138442 WDR12 −0.28101 0.033368 ENSG00000065883 CDK13 −0.30784 0.033394 ENSG00000164626 KCNK5 0.400576 0.033395 ENSG00000257564 −0.52638 0.033442 ENSG00000164944 KIAA1429 −0.28654 0.033479 ENSG00000120162 MOB3B −0.44426 0.033524 ENSG00000137100 DCTN3 0.302951 0.033524 ENSG00000088247 KHSRP 0.283885 0.03363 ENSG00000172292 CERS6 −0.2835 0.033676 ENSG00000141002 TCF25 0.30507 0.033725 ENSG00000108292 0.369741 0.033769 ENSG00000060656 PTPRU 0.742097 0.034036 ENSG00000104960 PTOV1 0.321545 0.034036 ENSG00000251369 ZNF550 −0.37399 0.034036 ENSG00000204775 0.829919 0.034097 ENSG00000198894 CIPC −0.414 0.03422 ENSG00000157353 FUK 0.404385 0.034239 ENSG00000130511 SSBP4 0.378562 0.034283 ENSG00000070495 JMJD6 0.334273 0.034358 ENSG00000173960 UBXN2A −0.36764 0.034358 ENSG00000083750 RRAGB −0.44735 0.034565 ENSG00000196715 VKORC1L1 −0.31331 0.034704 ENSG00000157514 TSC22D3 −0.86917 0.034705 ENSG00000111676 ATN1 0.387468 0.034726 ENSG00000138796 HADH −0.31456 0.0349 ENSG00000140577 CRTC3 −0.35737 0.0349 ENSG00000198440 ZNF583 −0.45661 0.0349 ENSG00000174021 GNG5 0.331292 0.034963 ENSG00000163629 PTPN13 −0.37694 0.034968 ENSG00000170906 NDUFA3 0.334657 0.034976 ENSG00000083720 OXCT1 −0.34231 0.035019 ENSG00000104976 SNAPC2 0.375666 0.035019 ENSG00000136153 LMO7 −0.44708 0.035019 ENSG00000111678 C12orf57 0.402918 0.035033 ENSG00000138641 HERC3 −0.34293 0.035181 ENSG00000161800 RACGAP1 0.30854 0.035181 ENSG00000234494 SP2-AS1 −0.83065 0.035211 ENSG00000177084 POLE −0.26981 0.035247 ENSG00000123395 ATG101 0.328557 0.035251 ENSG00000092531 SNAP23 −0.27042 0.035406 ENSG00000180626 ZNF594 −0.5731 0.035593 ENSG00000100092 SH3BP1 0.281762 0.035607 ENSG00000159433 STARD9 −0.41877 0.03562 ENSG00000204634 TBC1D8 0.414243 0.03562 ENSG00000160741 CRTC2 0.330604 0.0357 ENSG00000079805 DNM2 0.335292 0.035768 ENSG00000213742 ZNF337-AS1 −0.78459 0.03577 ENSG00000180479 ZNF571 −0.51957 0.035838 ENSG00000221829 FANCG 0.33546 0.035838 ENSG00000116675 DNAJC6 −0.86089 0.035898 ENSG00000124357 NAGK 0.450223 0.035965 ENSG00000135617 PRADC1 0.410585 0.036001 ENSG00000228797 0.804013 0.036039 ENSG00000105723 GSK3A 0.317855 0.036084 ENSG00000010278 CD9 −0.88652 0.036087 ENSG00000117054 ACADM −0.28196 0.03609 ENSG00000271856 LINC01215 0.425156 0.03609 ENSG00000105855 ITGB8 −0.48764 0.036269 ENSG00000049656 CLPTM1L 0.281684 0.03631 ENSG00000157693 C9orf91 −0.37167 0.036365 ENSG00000113407 TARS −0.28671 0.036433 ENSG00000140105 WARS 0.319 0.036559 ENSG00000162441 LZIC −0.31633 0.036564 ENSG00000171241 SHCBP1 0.338409 0.03657 ENSG00000226721 0.480475 0.036688 ENSG00000130338 TULP4 −0.39392 0.036833 ENSG00000137965 IFI44 −0.86485 0.036836 ENSG00000166439 RNF169 −0.29334 0.036847 ENSG00000171291 ZNF439 −0.392 0.036847 ENSG00000188647 PTAR1 −0.33109 0.036847 ENSG00000075945 KIFAP3 −0.3458 0.036849 ENSG00000213402 PTPRCAP 0.360824 0.036849 ENSG00000266282 0.332567 0.036915 ENSG00000147679 UTP23 −0.34784 0.036998 ENSG00000171940 ZNF217 −0.33458 0.036998 ENSG00000174903 RAB1B 0.290818 0.03711 ENSG00000109466 KLHL2 0.346891 0.03717 ENSG00000103226 NOMO3 0.763012 0.037201 ENSG00000260336 −0.3857 0.037227 ENSG00000204525 HLA-C 0.342961 0.037296 ENSG00000164604 GPR85 0.345021 0.037467 ENSG00000233137 −0.28999 0.037608 ENSG00000178149 DALRD3 −0.35871 0.037647 ENSG00000244038 DDOST 0.28964 0.037677 ENSG00000164631 ZNF12 −0.29345 0.03775 ENSG00000203880 PCMTD2 −0.33809 0.037861 ENSG00000137275 RIPK1 −0.2949 0.037982 ENSG00000138757 G3BP2 −0.26941 0.038024 ENSG00000265206 0.441956 0.038027 ENSG00000133561 GIMAP6 −0.37308 0.038081 ENSG00000136270 TBRG4 0.294276 0.038153 ENSG00000146410 MTFR2 0.386215 0.038153 ENSG00000052795 FNIP2 −0.362 0.03825 ENSG00000102317 RBM3 0.290395 0.03831 ENSG00000139637 C12orf10 0.336396 0.03832 ENSG00000128050 PAICS −0.28793 0.03841 ENSG00000115216 NRBP1 0.273082 0.038415 ENSG00000088298 EDEM2 0.310185 0.038434 ENSG00000167987 VPS37C 0.361879 0.038434 ENSG00000167536 DHRS13 0.493797 0.038462 ENSG00000116984 MTR −0.29159 0.038545 ENSG00000181135 ZNF707 0.426152 0.038565 ENSG00000113658 SMAD5 −0.30145 0.038681 ENSG00000105011 ASF1B 0.331346 0.038729 ENSG00000186283 TOR3A 0.291333 0.038782 ENSG00000167658 EEF2 0.268495 0.038787 ENSG00000086200 IPO11 −0.33522 0.038862 ENSG00000117602 RCAN3 −0.32445 0.038908 ENSG00000273142 0.472199 0.038908 ENSG00000131748 STARD3 0.328155 0.038949 ENSG00000168061 SAC3D1 0.568004 0.038949 ENSG00000169018 FEM1B −0.28967 0.038949 ENSG00000096746 HNRNPH3 −0.30885 0.039095 ENSG00000198373 WWP2 0.293489 0.039114 ENSG00000248866 USP46-AS1 −0.67122 0.039154 ENSG00000118482 PHF3 −0.27539 0.039262 ENSG00000113070 HBEGF 0.40574 0.03936 ENSG00000126903 SLC10A3 0.32776 0.039477 ENSG00000080823 MOK −0.63506 0.039551 ENSG00000248530 0.610436 0.03959 ENSG00000083535 PIBF1 −0.35756 0.039606 ENSG00000141068 KSR1 0.380968 0.039646 ENSG00000258289 CHURC1 −0.30165 0.039682 ENSG00000103522 IL21R 0.91582 0.039724 ENSG00000132635 PCED1A −0.36109 0.039799 ENSG00000231925 TAPBP 0.327328 0.039799 ENSG00000065675 PRKCQ −0.34375 0.039809 ENSG00000185043 CIB1 0.331271 0.039826 ENSG00000123739 PLA2G12A −0.34345 0.039862 ENSG00000158290 CUL4B −0.31211 0.039943 ENSG00000005175 RPAP3 −0.29366 0.039949 ENSG00000048707 VPS13D −0.31022 0.039949 ENSG00000159618 ADGRG5 0.31125 0.039949 ENSG00000103253 HAGHL 0.606761 0.039981 ENSG00000158488 CD1E 0.802822 0.039999 ENSG00000259000 −0.37779 0.040284 ENSG00000206530 CFAP44 −0.40738 0.04045 ENSG00000171992 SYNPO −0.84728 0.040501 ENSG00000079999 KEAP1 0.290542 0.040557 ENSG00000128791 TWSG1 −0.3047 0.040761 ENSG00000099977 DDT 0.384817 0.040769 ENSG00000166266 CUL5 −0.29456 0.040769 ENSG00000171823 FBXL14 0.441765 0.040769 ENSG00000246596 −0.78315 0.040769 ENSG00000091527 CDV3 −0.26197 0.04087 ENSG00000100297 MCM5 0.330124 0.04087 ENSG00000242612 DECR2 0.403091 0.04087 ENSG00000189350 FAM179A 0.664839 0.040934 ENSG00000149516 MS4A3 0.550959 0.040978 ENSG00000153107 ANAPC1 −0.32429 0.040978 ENSG00000087884 AAMDC −0.45293 0.041083 ENSG00000132485 ZRANB2 −0.27824 0.041083 ENSG00000167136 ENDOG 0.419689 0.041083 ENSG00000130649 CYP2E1 −0.76679 0.041113 ENSG00000189043 NDUFA4 0.28242 0.041152 ENSG00000082397 EPB41L3 0.662187 0.041326 ENSG00000146072 TNFRSF21 0.432055 0.041384 ENSG00000119041 GTF3C3 −0.27341 0.041386 ENSG00000203485 INF2 0.29506 0.041425 ENSG00000162980 ARL5A −0.28518 0.041443 ENSG00000249353 −0.26944 0.041443 ENSG00000173480 ZNF417 −0.42215 0.041457 ENSG00000164620 RELL2 0.46452 0.041746 ENSG00000263002 ZNF234 −0.38255 0.041852 ENSG00000102100 SLC35A2 0.342606 0.041922 ENSG00000271707 0.369207 0.04199 ENSG00000234284 ZNF879 −0.55273 0.042015 ENSG00000248092 −0.42288 0.042017 ENSG00000091127 PUS7 −0.31394 0.042023 ENSG00000048649 RSF1 −0.29471 0.042045 ENSG00000233347 0.395566 0.042071 ENSG00000023516 AKAP11 −0.35608 0.042094 ENSG00000171813 PWWP2B 0.407158 0.042094 ENSG00000141425 RPRD1A −0.29124 0.042222 ENSG00000205609 EIF3CL −0.33808 0.042223 ENSG00000124743 KLHL31 −0.75469 0.04239 ENSG00000148288 GBGT1 0.339303 0.042567 ENSG00000112419 PHACTR2 0.316047 0.042693 ENSG00000100030 MAPK1 −0.32634 0.042748 ENSG00000227671 −0.30052 0.042798 ENSG00000237861 0.469991 0.042801 ENSG00000056998 GYG2 −0.56062 0.042821 ENSG00000068120 COASY 0.287873 0.042821 ENSG00000213020 ZNF611 −0.40371 0.042821 ENSG00000213904 LIPE-AS1 0.658215 0.042837 ENSG00000187954 CYHR1 0.345741 0.042896 ENSG00000167565 SERTAD3 0.41154 0.042898 ENSG00000125484 GTF3C4 −0.29894 0.043016 ENSG00000170266 GLB1 0.293928 0.043047 ENSG00000183484 GPR132 0.389797 0.043047 ENSG00000176018 LYSMD3 −0.30548 0.043166 ENSG00000100330 MTMR3 0.300731 0.043212 ENSG00000197779 ZNF81 −0.44587 0.043218 ENSG00000204131 NHSL2 −0.40728 0.043321 ENSG00000156873 PHKG2 0.324099 0.043348 ENSG00000246985 SOCS2-AS1 −0.46305 0.043435 ENSG00000145725 PPIP5K2 −0.3464 0.043479 ENSG00000167850 CD300C 0.425908 0.043513 ENSG00000096872 IFT74 −0.378 0.043537 ENSG00000214181 −0.49113 0.043537 ENSG00000146425 DYNLT1 −0.37398 0.043561 ENSG00000118454 ANKRD13C −0.31732 0.043592 ENSG00000170396 ZNF804A 0.48413 0.043659 ENSG00000217835 −0.44297 0.043673 ENSG00000107290 SETX −0.31164 0.043687 ENSG00000101216 GMEB2 0.329707 0.043713 ENSG00000136261 BZW2 −0.25874 0.043769 ENSG00000137700 SLC37A4 0.299175 0.043839 ENSG00000160813 PPP1R35 0.469291 0.043839 ENSG00000013523 ANGEL1 −0.32895 0.043917 ENSG00000184545 DUSP8 0.897719 0.043917 ENSG00000138594 TMOD3 −0.27008 0.044031 ENSG00000062725 APPBP2 −0.30757 0.044062 ENSG00000072958 AP1M1 0.30944 0.044073 ENSG00000169032 MAP2K1 0.299435 0.044154 ENSG00000132274 TRIM22 −0.28434 0.044178 ENSG00000104689 TNFRSF10A 0.446534 0.04426 ENSG00000237181 0.674406 0.044273 ENSG00000185261 KIAA0825 −0.68565 0.044315 ENSG00000251667 −0.63653 0.044315 ENSG00000167114 SLC27A4 0.35555 0.044351 ENSG00000110799 VWF −0.82899 0.044439 ENSG00000126777 KTN1 −0.26828 0.044439 ENSG00000221930 0.496731 0.044581 ENSG00000173653 RCE1 0.346792 0.044589 ENSG00000128590 DNAJB9 0.349466 0.044623 ENSG00000168038 ULK4 −0.44815 0.044623 ENSG00000123552 USP45 −0.32603 0.044654 ENSG00000166963 MAP1A 0.496368 0.044736 ENSG00000073111 MCM2 0.311371 0.044825 ENSG00000170006 TMEM154 0.308232 0.044898 ENSG00000172339 ALG14 0.482923 0.044995 ENSG00000196954 CASP4 −0.27853 0.045032 ENSG00000121289 CEP89 −0.40322 0.04512 ENSG00000163634 THOC7 −0.2888 0.045458 ENSG00000108510 MED13 −0.28099 0.045467 ENSG00000074935 TUBE1 −0.32509 0.045555 ENSG00000181826 RELL1 0.54915 0.045555 ENSG00000043514 TRIT1 −0.33115 0.04559 ENSG00000086730 LAT2 −0.28347 0.04559 ENSG00000103591 AAGAB 0.284062 0.045783 ENSG00000134824 FADS2 −0.26877 0.045801 ENSG00000213523 SRA1 0.36825 0.045801 ENSG00000105486 LIG1 0.324822 0.046013 ENSG00000158711 ELK4 −0.27072 0.046041 ENSG00000163156 SCNM1 0.29876 0.04608 ENSG00000142156 COL6A1 0.903154 0.046242 ENSG00000139624 CERS5 0.283352 0.04628 ENSG00000231007 0.349273 0.046371 ENSG00000177888 ZBTB41 −0.42454 0.046415 ENSG00000187742 SECISBP2 −0.27391 0.046456 ENSG00000104915 STX10 0.312762 0.046583 ENSG00000164440 TXLNB −0.88266 0.046583 ENSG00000237819 LOC101927497 −0.84081 0.046583 ENSG00000131188 PRR7 0.82053 0.04663 ENSG00000111877 MCM9 −0.32868 0.046718 ENSG00000004478 FKBP4 −0.26786 0.04677 ENSG00000121152 NCAPH 0.317246 0.04677 ENSG00000120800 UTP20 −0.33114 0.046815 ENSG00000170949 ZNF160 −0.30726 0.046979 ENSG00000092140 G2E3 −0.30438 0.047011 ENSG00000254244 −0.32078 0.047124 ENSG00000159423 ALDH4A1 0.329673 0.04725 ENSG00000267889 0.797029 0.04725 ENSG00000151233 GXYLT1 −0.29432 0.04727 ENSG00000062370 ZNF112 −0.40156 0.047294 ENSG00000164134 NAA15 −0.28539 0.047297 ENSG00000169299 PGM2 0.263156 0.047341 ENSG00000198429 ZNF69 −0.63875 0.047341 ENSG00000120899 PTK2B 0.284509 0.047406 ENSG00000141564 RPTOR 0.289999 0.047406 ENSG00000232626 0.645127 0.047463 ENSG00000038358 EDC4 0.287393 0.047487 ENSG00000177030 DEAF1 0.305895 0.047533 ENSG00000115421 PAPOLG −0.30024 0.047667 ENSG00000138439 FAM117B −0.34657 0.047667 ENSG00000064703 DDX20 −0.27217 0.047725 ENSG00000065526 SPEN −0.30939 0.047817 ENSG00000103168 TAF1C 0.324331 0.047868 ENSG00000101017 CD40 0.896776 0.048005 ENSG00000112996 MRPS30 −0.28112 0.048282 ENSG00000165671 NSD1 −0.30922 0.048303 ENSG00000140988 RPS2 0.257277 0.048352 ENSG00000072736 NFATC3 −0.26318 0.048461 ENSG00000132326 PER2 −0.31931 0.048461 ENSG00000112234 FBXL4 −0.35476 0.048583 ENSG00000125686 MED1 −0.31803 0.048583 ENSG00000177374 HIC1 0.720065 0.048598 ENSG00000225791 TRAM2-AS1 −0.42449 0.048622 ENSG00000108468 CBX1 −0.32884 0.048781 ENSG00000257497 0.773978 0.048831 ENSG00000178999 AURKB 0.326077 0.048893 ENSG00000135077 HAVCR2 −0.4042 0.048964 ENSG00000272093 −0.53241 0.048971 ENSG00000119403 PHF19 0.344077 0.048978 ENSG00000151067 CACNA1C −0.62253 0.048978 ENSG00000197498 RPF2 −0.28368 0.048987 ENSG00000198598 MMP17 0.455932 0.048998 ENSG00000164691 TAGAP 0.365079 0.049032 ENSG00000101126 ADNP −0.27824 0.049042 ENSG00000163611 SPICE1 −0.36633 0.049042 ENSG00000167965 MLST8 0.34623 0.049042 ENSG00000169957 ZNF768 0.290289 0.049042 ENSG00000197013 ZNF429 −0.51202 0.049042 ENSG00000165209 STRBP −0.28899 0.049066 ENSG00000173141 MRPL57 0.311246 0.049076 ENSG00000179526 SHARPIN 0.332599 0.0491 ENSG00000198019 FCGR1B 0.822081 0.049134 ENSG00000147130 ZMYM3 −0.30395 0.049163 ENSG00000243364 EFNA4 0.486118 0.049336 ENSG00000127995 CASD1 −0.32068 0.049528 ENSG00000157107 FCHO2 −0.32542 0.049646 ENSG00000174032 SLC25A30 −0.35014 0.049675 ENSG00000123009 0.284078 0.049793 ENSG00000148426 PROSER2 −0.43254 0.049793 ENSG00000180855 ZNF443 −0.53535 0.049793 ENSG00000119707 RBM25 −0.26813 0.049862 ENSG00000082258 CCNT2 −0.28419 0.049908 ENSG00000151694 ADAM17 0.34168 0.049944 ENSG00000119314 PTBP3 −0.28674 0.049945 ENSG00000131437 KIF3A −0.3975 0.04995 ENSG00000160799 CCDC12 0.310317 0.04999

SUPPLEMENTARY TABLE 2 GO biological processes identified as overrepresented in an overrepresentation analysis using the DE transcripts. The presented GO terms were called significant with a Bonferroni corrected P-value below 0.05. The corrected p-values are reported below. Number of mapped IDs from reference: 14774, unmapped IDs from reference: 12854; number of mapped IDs from DE transcripts: 3298, unmapped IDs from DE transcripts: 346. # of Expected # of Fold P_(FWER)- GO Biological Process matches matches Enrichment value myeloid leukocyte activation (GO:0002274) 46 19.59 2.35 1.74E−03 leukocyte chemotaxis (GO:0030595) 45 21.37 2.11 3.82E−02 maintenance of location (GO:0051235) 57 29.17 1.95 2.18E−02 cell chemotaxis (GO:0060326) 58 30.06 1.93 2.60E−02 leukocyte migration (GO:0050900) 89 49.43 1.8 1.52E−03 positive regulation of MAP kinase activity (GO:0043406) 71 39.63 1.79 2.89E−02 regulation of angiogenesis (GO:0045765) 69 38.52 1.79 3.93E−02 regulation of vasculature development (GO:1901342) 76 42.52 1.79 1.47E−02 regulation of MAP kinase activity (GO:0043405) 107 61.23 1.75 4.06E−04 response to lipopolysaccharide (GO:0032496) 102 60.11 1.7 3.08E−03 positive regulation of cell migration (GO:0030335) 125 74.14 1.69 2.27E−04 positive regulation of cell motility (GO:2000147) 128 76.37 1.68 2.14E−04 positive regulation of cellular component movement (GO:0051272) 131 78.37 1.67 1.72E−04 inflammatory response (GO:0006954) 140 84.16 1.66 7.58E−05 positive regulation of locomotion (GO:0040017) 130 78.15 1.66 2.53E−04 response to molecule of bacterial origin (GO:0002237) 103 62.56 1.65 1.01E−02 regulation of cell migration (GO:0030334) 202 125.79 1.61 7.49E−07 positive regulation of MAPK cascade (GO:0043410) 134 84.38 1.59 1.95E−03 regulation of cell motility (GO:2000145) 213 134.92 1.58 9.53E−07 regulation of protein serine/threonine kinase activity (GO:0071900) 143 91.28 1.57 1.66E−03 regulation of locomotion (GO:0040012) 218 139.82 1.56 1.63E−06 regulation of cellular component movement (GO:0051270) 225 145.61 1.55 1.78E−06 blood vessel development (GO:0001568) 131 85.49 1.53 1.57E−02 taxis (GO:0042330) 128 83.94 1.52 2.56E−02 chemotaxis (GO:0006935) 127 83.71 1.52 3.55E−02 vasculature development (GO:0001944) 135 89.06 1.52 1.88E−02 negative regulation of programmed cell death (GO:0043069) 225 151.17 1.49 3.86E−05 negative regulation of apoptotic process (GO:0043066) 221 148.95 1.48 6.76E−05 regulation of MAPK cascade (GO:0043408) 179 120.67 1.48 1.81E−03 immune response (GO:0006955) 280 191.03 1.47 2.06E−06 positive regulation of immune system process (GO:0002684) 240 164.76 1.46 6.93E−05 cell activation (GO:0001775) 158 108.65 1.45 2.67E−02 negative regulation of cell death (GO:0060548) 233 161.42 1.44 2.34E−04 cell migration (GO:0016477) 198 137.82 1.44 3.53E−03 regulation of cell adhesion (GO:0030155) 170 119.56 1.42 4.03E−02 positive regulation of intracellular signal transduction (GO:1902533) 230 162.31 1.42 1.15E−03 regulation of immune system process (GO:0002682) 366 259.38 1.41 2.85E−07 response to lipid (GO:0033993) 216 153.62 1.41 4.72E−03 immune system process (GO:0002376) 523 372.93 1.4 1.95E−11 cellular response to oxygen-containing compound (GO:1901701) 211 150.73 1.4 8.51E−03 defense response (GO:0006952) 290 207.95 1.39 1.09E−04 response to oxygen-containing compound (GO:1901700) 351 256.26 1.37 1.94E−05 regulation of immune response (GO:0050776) 217 158.74 1.37 2.84E−02 positive regulation of protein phosphorylation (GO:0001934) 216 158.97 1.36 4.36E−02 regulation of cell proliferation (GO:0042127) 368 272.07 1.35 2.98E−05 locomotion (GO:0040011) 256 189.91 1.35 1.06E−02 positive regulation of phosphorus metabolic process (GO:0010562) 249 185.24 1.34 1.80E−02 positive regulation of phosphate metabolic process (GO:0045937) 249 185.24 1.34 1.80E−02 regulation of programmed cell death (GO:0043067) 351 263.16 1.33 2.89E−04 regulation of apoptotic process (GO:0042981) 346 260.49 1.33 5.44E−04 positive regulation of response to stimulus (GO:0048584) 462 349.99 1.32 5.33E−06 regulation of protein phosphorylation (GO:0001932) 311 236.89 1.31 7.06E−03 positive regulation of multicellular organismal process (GO:0051240) 334 254.7 1.31 2.99E−03 regulation of cell death (GO:0010941) 365 278.75 1.31 9.41E−04 response to external stimulus (GO:0009605) 406 311.48 1.3 2.73E−04 movement of cell or subcellular component (GO:0006928) 309 237.11 1.3 1.40E−02 regulation of phosphorylation (GO:0042325) 329 255.15 1.29 1.55E−02 positive regulation of signaling (GO:0023056) 356 278.75 1.28 1.33E−02 positive regulation of signal transduction (GO:0009967) 330 258.49 1.28 3.38E−02 positive regulation of cell communication (GO:0010647) 354 277.41 1.28 1.54E−02 regulation of intracellular signal transduction (GO:1902531) 404 317.49 1.27 3.52E−03 regulation of localization (GO:0032879) 556 442.61 1.26 8.60E−05 cellular response to organic substance (GO:0071310) 435 346.65 1.25 5.14E−03 cellular response to chemical stimulus (GO:0070887) 528 421.91 1.25 3.55E−04 response to organic substance (GO:0010033) 578 468.22 1.23 4.35E−04 regulation of response to stimulus (GO:0048583) 824 670.15 1.23 3.62E−07 regulation of signal transduction (GO:0009966) 616 501.17 1.23 2.55E−04 regulation of cell communication (GO:0010646) 673 549.04 1.23 7.10E−05 regulation of signaling (GO:0023051) 682 558.16 1.22 8.92E−05 regulation of multicellular organismal process (GO:0051239) 571 470 1.21 4.01E−03 regulation of molecular function (GO:0065009) 637 525.21 1.21 9.02E−04 regulation of developmental process (GO:0050793) 499 412.78 1.21 4.11E−02 regulation of catalytic activity (GO:0050790) 521 431.26 1.21 2.62E−02 response to chemical (GO:0042221) 742 626.07 1.19 1.93E−03 signal transduction (GO:0007165) 911 779.69 1.17 5.08E−04 negative regulation of biological process (GO:0048519) 950 814.65 1.17 3.17E−04 negative regulation of cellular process (GO:0048523) 883 757.43 1.17 1.33E−03 cell communication (GO:0007154) 986 847.82 1.16 2.47E−04 positive regulation of biological process (GO:0048518) 1081 931.09 1.16 4.52E−05 single organism signaling (GO:0044700) 967 833.57 1.16 5.85E−04 signaling (GO:0023052) 967 834.24 1.16 6.78E−04 positive regulation of cellular process (GO:0048522) 970 844.04 1.15 2.98E−03 cellular response to stimulus (GO:0051716) 1171 1038.85 1.13 3.82E−03 response to stimulus (GO:0050896) 1439 1276.63 1.13 3.33E−05 regulation of cellular metabolic process (GO:0031323) 1174 1050.65 1.12 1.99E−02 regulation of primary metabolic process (GO:0080090) 1161 1041.52 1.11 3.71E−02 regulation of metabolic process (GO:0019222) 1230 1110.09 1.11 4.69E−02 regulation of cellular process (GO:0050794) 1968 1778.47 1.11 1.24E−07 regulation of biological process (GO:0050789) 2064 1867.3 1.11 1.47E−08 biological regulation (GO:0065007) 2179 1972.39 1.1 5.32E−10 cellular process (GO:0009987) 2659 2522.76 1.05 4.59E−05 biological process (GO:0008150) 3011 2886.11 1.04 2.33E−08 Unclassified (UNCLASSIFIED) 287 411.89 0.7 0.00E+00 sensory perception of chemical stimulus 3 21.37 <0.2 6.89E−3  (GO:0007606)

EXAMPLE 2

The SenzaCell cell line may also be used together with a genomic biomarker signature for classification of respiratory sensitizers using the GARD platform, i.e. for identifying agents capable of inducing respiratory sensitization in a mammal.

The methods may be performed in line with the methodology discussed in the functional analysis section of Example 1 above for identifying skin sensitizers but adapted to use the biomarker signature of Table B and/or Table C below. See also the detailed methodology described specifically for identifying agents capable of inducing respiratory sensitization described in WO 2013/160882; WO 2016/083604; and Forreryd et al. (2015) Prediction of chemical Respiratory sensitizers using GARD, a novel in vitro assay based on a genomic biomarker signature. PLoS One 10(3)).

TABLE B “Core”, “preferred” and “optional” biomarkers from the GARD Respiratory Prediction Signature. Affymetrix Validation Call Gene Symbol Entrez Gene ID Probe Set ID Frequency (A) Core biomarkers 1. OR5B21 ENST00000360374 7948330 100 2. SLC7A7 ENST00000404278 7977786 95 (B) Preferred biomarkers 3. PIP3-E ENST00000265198 8130408 85 4. BTNL8 ENST00000400706 8116537 85 5. CLEC4A ENST00000360500 7953723 90 6. HIST4H4 ENST00000358064 7961483 80 7. YKT6 ENST00000223369 8132580 80 8. FLJ32679 /// ENST00000327271 7981895 85 GOLGA8G /// GOLGA8E 9. PACSIN3 ENST00000298838 7947801 90 10. PDE1B ENST00000243052 7955943 80 11. NQO1 ENST00000320623 8002303 80 12. CAMK1D ENST00000378845 7926223 95 13. MYB ENST00000341911 8122202 95 14. — ENST00000387396 8065752 80 15. GRK5 ENST00000369106 7930894 90 (C) Optional biomarkers 16. CD86 ENST00000330540 8082035 100 17. CD1A ENST00000289429 7906339 85 18. WWOX ENST00000355860 7997352 85 19. IKZF2 ENST00000374319 8058670 85 20. FUCA1 ENST00000374479 7913694 80 21. C10orf76 ENST00000370033 7935951 80 22. AMICA1 ENST00000356289 7952022 80 23. PDPK2 /// PDPK1 ENST00000382326 7998825 80 24. AZU1 ENST00000334630 8024038 80 25. ACN9 ENST00000360382 8134415 80 26. PDPN ENST00000400804 7898057 75 27. LOC642587 NM_001104548 7909422 75 28. SEC61A2 ENST00000379051 7926189 75 29. ELA2 ENST00000263621 8024056 75 30. BMP2K ENST00000335016 8096004 75 31. HCCS ENST00000321143 8165995 75 32. CXorf26 ENST00000373358 8168447 75 33. TYSND1 ENST00000287078 7934114 70 34. CARS ENST00000380525 7945803 70 35. NECAP1 ENST00000339754 7953715 70 36. CDH26 ENST00000348616 8063761 70 37. SERPINB1 ENST00000380739 8123598 70 38. STEAP4 ENST00000301959 8140840 70 39. TXNIP ENST00000369317 7904726 65 40. — ENST00000386628 7925821 65 41. C12orf35 ENST00000312561 7954711 65 42. HMGA2 ENST00000393578 7956867 65 43. KRT16 ENST00000301653 8015376 65 44. GGTLC2 ENST00000215938 8071662 65 45. — ENST00000386437 8089926 65 46. OSBPL11 ENST00000393455 8090277 65 47. FAM71F1 ENST00000315184 8135945 65 48. ATP6V1B2 ENST00000276390 8144931 65 49. LOC128102 AF252254 7904429 60 50. TBX19 ENST00000367821 7907146 60 51. NID1 ENST00000264187 7925320 60 52. LPXN ENST00000263845 7948332 60 53. C15orf45 AK057017 7982375 60 54. RNF111 ENST00000380504 7983953 60 55. — ENST00000386861 7993183 60 56. CD33 ENST00000262262 8030804 60 57. TANK ENST00000259075 8045933 60 58. ANKRD44 ENST00000282272 8057990 60 59. WDFY1 ENST00000233055 8059361 60 60. SDC4 ENST00000372733 8066513 60 61. TMPRSS11B ENST00000332644 8100701 60 62. AFF4 ENST00000265343 8114083 60 63. HBEGF ENST00000230990 8114572 60 64. XK ENST00000378616 8166723 60 65. SLAMF7 ENST00000368043 7906613 55 66. S100A4 ENST00000368715 7920271 55 67. MPZL3 ENST00000278949 7952036 55 68. — GENSCAN00000044853 7967586 55 69. TRAV8-3 ENST00000390435 7973298 55 70. LOC100131497 GENSCAN00000046821 7980481 55 71. KIAA1468 ENST00000299783 8021496 55 72. SPHK2 ENST00000245222 8030078 55 73. — ENST00000309260 8096554 55 74. CCR6 ENST00000283506 8123364 55 75. GSTA3 ENST00000370968 8127087 55 76. RALA ENST00000005257 8132406 55 77. C7orf53 ENST00000312849 8135532 55 78. — AF480566 8141421 55 79. CERCAM ENST00000372842 8158250 55 80. — hsa-mir-147 8163729 55 81. NFYC ENST00000372655 7900468 50 82. CD53 ENST00000271324 7903893 50 83. PSEN2 ENST00000366783 7910146 50 84. CISD1 ENST00000333926 7927649 50 85. SCD ENST00000370355 7929816 50 86. MED19 ENST00000337672 7948293 50 87. SYT17 ENST00000396244 7993624 50 88. KRT16 /// ENST00000399124 8013465 50 LOC400578 /// MGC102966 89. C18orf51 ENST00000400291 8023864 50 90. CD79A ENST00000221972 8029136 50 91. C19orf56 ENST00000222190 8034448 50 92. AGFG1 ENST00000409979 8048847 50 93. FOXP1 ENST00000318796 8088776 50 94. TLR6 ENST00000381950 8099841 50 95. SUSD3 ENST00000375472 8156393 50 96. — ENST00000387842 8176921 50 97. — ENST00000387842 8177424 50 98. GPA33 ENST00000367868 7922029 45 99. CDC123 ENST00000281141 7926207 45 100. C10orf11 ENST00000354343 7928534 45 101. — ENST00000322493 7937971 45 102. PTMAP7 AF170294 7976239 45 103. ARRDC4 ENST00000268042 7986350 45 104. — ENST00000388199 7997738 45 105. — ENST00000388437 8009299 45 106. KRT9 ENST00000246662 8015357 45 107. — ENST00000379371 8035868 45 108. HDAC4 ENST00000345617 8060030 45 109. CD200 ENST00000315711 8081657 45 110. PAPSS1 ENST00000265174 8102214 45 111. ORAI2 ENST00000356387 8135172 45 112. — AK124536 8144569 45 113. ZBTB10 ENST00000379091 8147040 45 114. — ENST00000387422 8159963 45 115. RAB9A ENST00000243325 8166098 45 116. — — 7895613 40 117. DRD5 ENST00000304374 7905025 40 118. CNR2 ENST00000374472 7913705 40 119. OIT3 ENST00000334011 7928330 40 120. — ENST00000386981 7933008 40 121. C10orf90 ENST00000356858 7936996 40 122. OR52D1 ENST00000322641 7938008 40 123. ZNF214 ENST00000278314 7946288 40 124. — ENST00000386959 7954690 40 125. ART4 ENST00000228936 7961507 40 126. RCBTB2 ENST00000344532 7971573 40 127. HOMER2 ENST00000304231 7991034 40 128. WWP2 ENST00000359154 7996976 40 129. WDR24 ENST00000248142 7998280 40 130. MED31 ENST00000225728 8011968 40 131. CALM2 ENST00000272298 8052010 40 132. DLX2 ENST00000234198 8056784 40 133. BTBD3 ENST00000399006 8060988 40 134. — ENST00000339367 8075817 40 135. TBCA ENST00000380377 8112767 40 136. GIN1 ENST00000399004 8113403 40 137. NOL7 ENST00000259969 8116969 40 138. — ENST00000402365 8117628 40 139. C7orf28B /// ENST00000325974 8138128 40 C7orf28A 140. DPP7 ENST00000371579 8165438 40 141. hCG_1749005 NR_003933 8167640 40 142. PNPLA4 ENST00000381042 8171229 40 143. USP51 ENST00000330856 8173174 40 144. HLA-DQA1 /// ENST00000383127 8178193 40 HLA-DRA 145. FAAH ENST00000243167 7901229 35 146. GDAP2 ENST00000369443 7918955 35 147. CD48 ENST00000368046 7921667 35 148. PTPRJ ENST00000278456 7939839 35 149. EXPH5 ENST00000265843 7951545 35 150. RPS26 /// ENST00000393490 7956114 35 LOC728937 /// RPS26L /// hCG_2033311 151. ALDH2 ENST00000261733 7958784 35 152. CALM1 ENST00000356978 7976200 35 153. NOX5 /// SPESP1 ENST00000395421 7984488 35 154. RHBDL1 ENST00000352681 7992010 35 155. CYLD ENST00000311559 7995552 35 156. OSBPL1A ENST00000357041 8022572 35 157. GYPC ENST00000259254 8045009 35 158. RQCD1 ENST00000295701 8048340 35 159. RBM44 ENST00000316997 8049552 35 160. — ENST00000384680 8051862 35 161. C3orf58 ENST00000315691 8083223 35 162. MFSD1 ENST00000264266 8083656 35 163. HACL1 ENST00000321169 8085608 35 164. SATB1 ENST00000338745 8085716 35 165. USP4 ENST00000351842 8087380 35 166. — ENST00000410125 8089928 35 167. — ENST00000384055 8097445 35 168. IL7R ENST00000303115 8104901 35 169. — ENST00000364497 8117018 35 170. FAM135A ENST00000370479 8120552 35 171. CD164 ENST00000310786 8128716 35 172. DYNLT1 ENST00000367088 8130499 35 173. NRCAM ENST00000379027 8142270 35 174. ZNF596 ENST00000308811 8144230 35 175. — ENST00000332418 8170322 35 176. TCEAL3 /// TCEAL6 ENST00000372774 8174134 35 177. SNAPIN ENST00000368685 7905598 30 178. DENND2D ENST00000369752 7918487 30 179. SAMD8 ENST00000372690 7928516 30 180. LHPP ENST00000368842 7931204 30 181. SLC37A2 ENST00000298280 7944931 30 182. FLI1 /// EWSR1 ENST00000344954 7945132 30 183. OR9G4 ENST00000395180 7948157 30 184. LOC338799 ENST00000391388 7967210 30 185. HEXDC ENST00000337014 8010787 30 186. NOTUM ENST00000409678 8019334 30 187. MCOLN1 ENST00000394321 8025183 30 188. PRKACA ENST00000350356 8034762 30 189. CRIM1 ENST00000280527 8041447 30 190. CECR5 ENST00000336737 8074227 30 191. RNF13 ENST00000392894 8083310 30 192. 40969 ENST00000339875 8103508 30 193. ZNF366 ENST00000318442 8112584 30 194. — ENST00000410754 8120979 30 195. GIMAP5 ENST00000358647 8137257 30 196. — ENST00000362484 8147242 30 197. TFE3 ENST00000315869 8172520 30 198. RHOU ENST00000366691 7910387 25 199. MED8 ENST00000290663 7915516 25 200. CASQ2 ENST00000261448 7918878 25 201. NUDT5 ENST00000378940 7932069 25 202. C11orf73 ENST00000278483 7942932 25 203. PAK1 ENST00000356341 7950578 25 204. PRSS21 ENST00000005995 7992722 25 205. — ENST00000332418 7997907 25 206. BTBD12 ENST00000294008 7999008 25 207. DHRS13 ENST00000394901 8013804 25 208. CCDC102B ENST00000319445 8021685 25 209. BCL2 ENST00000398117 8023646 25 210. ZNF211 /// ZNF134 ENST00000396161 8031784 25 211. NDUFV2 ENST00000340013 8039068 25 212. MYCN ENST00000281043 8040419 25 213. — ENST00000385528 8045561 25 214. — ENST00000362957 8046522 25 215. CASP8 ENST00000264275 8047419 25 216. RTN4 ENST00000394611 8052204 25 217. PLCG1 ENST00000244007 8062623 25 218. MGC42105 ENST00000326035 8105146 25 219. EMB ENST00000303221 8112007 25 220. — ENST00000386433 8121249 25 221. COL21A1 ENST00000370817 8127201 25 222. LRP12 ENST00000276654 8152280 25 223. LMNA ENST00000368301 7906085 20 224. — ENST00000385567 7907535 20 225. — ENST00000362863 7926805 20 226. ZNF503 ENST00000372524 7934553 20 227. NLRX1 ENST00000397884 7944463 20 228. — ENST00000391173 7954775 20 229. NDRG2 ENST00000298687 7977621 20 230. TRAF7 ENST00000326181 7992529 20 231. KRT40 ENST00000400879 8015152 20 232. KRT40 ENST00000400879 8019604 20 233. DRD5 ENST00000304374 8053725 20 234. ZC3H8 ENST00000409573 8054664 20 235. MMP9 ENST00000372330 8063115 20 236. PLTP ENST00000372420 8066619 20 237. — ENST00000362686 8100476 20 238. SPEF2 ENST00000282469 8104856 20 239. LRRC16A ENST00000332168 8117243 20 240. FBXO9 AK095315 8120269 20 241. EEPD1 ENST00000242108 8132305 20 242. FCN1 ENST00000371807 8165011 20 243. EFNA3 ENST00000368408 7905918 15 244. — ENST00000314893 7910385 15 245. TMEM19 ENST00000266673 7957167 15 246. PLXNC1 ENST00000258526 7957570 15 247. NHLRC3 ENST00000379599 7968703 15 248. MBNL2 ENST00000397601 7969677 15 249. EIF5 ENST00000216554 7977058 15 250. PLEKHG4 ENST00000360461 7996516 15 251. COPS3 ENST00000268717 8013094 15 252. FAM171A2 ENST00000398346 8016033 15 253. LOC653653 /// AP1S2 ENST00000380291 8017210 15 254. VAPA ENST00000340541 8020129 15 255. MATK ENST00000395040 8032682 15 256. ACTR2 ENST00000377982 8042337 15 257. BPI ENST00000262865 8062444 15 258. ERG ENST00000398905 8070297 15 259. LAMB2 ENST00000305544 8087337 15 260. — BC090058 8133752 15 261. PHTF2 ENST00000248550 8133818 15 262. — ENST00000333261 8133902 15 263. C8orf55 ENST00000336138 8148559 15 264. PDE7A ENST00000379419 8151074 15 265. NAPRT1 ENST00000340490 8153430 15 266. HLA-DRA ENST00000383127 8179481 15 267. SLC22A15 ENST00000369503 7904226 10 268. FCGR1A /// ENST00000369384 7905047 10 FCGR1B /// FCGR1C 269. SLC27A3 ENST00000271857 7905664 10 270. ID3 ENST00000374561 7913655 10 271. TBCEL ENST00000284259 7944623 10 272. FAM138D ENST00000355746 7960172 10 273. POMP ENST00000380842 7968297 10 274. SNN ENST00000329565 7993259 10 275. MED13 ENST00000262436 8017312 10 276. ZFP36L2 ENST00000282388 8051814 10 277. UXS1 ENST00000409501 8054395 10 278. CD40 ENST00000279061 8063156 10 279. — ENST00000362620 8066960 10 280. GGT5 ENST00000327365 8074991 10 281. — BC035666 8103023 10 282. G6PD ENST00000393562 8176133 10 283. — ENST00000384272 7902365 5 284. CLCC1 ENST00000369971 7918255 5 285. SCGB2A1 ENST00000244930 7940626 5 286. GAA ENST00000302262 8010354 5 287. SERPINB2 ENST00000404622 8021635 5 288. GPI ENST00000356487 8027621 5 289. LASS6 ENST00000392687 8046086 5 290. EIF4A2 AB209021 8084704 5 291. HLA-DRA ENST00000383127 8118548 5 292. — ENST00000385586 8136889 5 293. ANXA2P2 M62898 /// 8154836 5 NR_003573 294. FANCG ENST00000378643 8160935 5 295. FAM53B ENST00000337318 7936884 0 296. RFXAP ENST00000255476 7968653 0 297. UBR1 ENST00000382177 7987981 0 298. TBC1D2B ENST00000409931 7990657 0 299. SERPINB10 ENST00000397996 8021645 0 300. SEC23B ENST00000377481 8061186 0 301. MN1 ENST00000302326 8075126 0 302. CRTAP ENST00000320954 8078450 0

Table B. Genes are annotated with Entrez Gene ID where found (www.ncbi.nlm.nih.gov/gene). The Affymetrix Probe Set ID for the Human ST 1.0 Array are provided. The validation call frequency (%) is the occurrence of each gene in the 20 Validation Biomarker Signatures obtained during cross-validation.

TABLE C Ensembl Gene ID Transcript ID Affymetrix Validation Table C(i) - Core biomarkers 1. TNFRSF19 ENST00000403372 7968015 100 2. SNORA74A NR_002915 8108420 100 3. SPAM1 ENST00000340011 8135835 100 Table C(ii) - Preferred biomarkers 4. ETID:ENST00000364621 ENST00000364621 7917972 95 5. HOMER3 ENST00000392351 8035566 95 6. CD1C ENST00000368169 7906348 90 7. IGHD /// IGHM ENST00000390538 7981601 90 8. SNRPN /// SNORD116-26 NR_003340 7982000 90 9. ETID:ENST00000364678 ENST00000364678 7934896 85 10. STRAP ENST00000025399 7954173 85 11. DIABLO ENST00000267169 7967230 85 12. ETID:ENST00000411349 ENST00000411349 8151989 85 13. ETID:ENST00000385497 ENST00000385497 7923037 80 14. OR51A2 ENST00000380371 7946017 80 15. MRPL21 ENST00000362034 7949995 80 16. PPP1R14A ENST00000301242 8036473 80 17. DEFB127 ENST00000382388 8060314 80 18. C9orf130 ENST00000375268 8162562 80 19. PRO2012 BC019830 7924817 75 20. LOC399898 AK128188 7940116 75 21. ETID:ENST00000387701 ENST00000387701 7969914 75 22. WDR68 ENST00000310827 8009164 75 23. NEU2 ENST00000233840 8049243 75 24. ETID:ENST00000386677 ENST00000386677 8072575 75 25. SPARC ENST00000231061 8115327 75 26. ETID:ENST00000390342 ENST00000390342 8139107 75 27. CRNN ENST00000271835 7920178 70 28. MMP12 ENST00000326227 7951297 70 29. ACVRL1 ENST00000267008 7955562 70 30. EIF4E2 ENST00000258416 8049180 70 31. RP11-191L9.1 ENST00000380990 8076819 70 32. PDCD6 /// AHRR ENST00000264933 8104180 70 33. ARRDC3 ENST00000265138 8113073 70 34. VWDE ENST00000275358 8138258 70 35. ZBTB34 ENST00000319119 8157945 70 36. ITGB1BP2 ENST00000373829 8168291 70 37. OR10K2 ENST00000392265 7921356 65 38. FU22596 AK026249 7950442 65 39. ETID:ENST00000306515 ENST00000306515 8043572 65 40. ACVR2A ENST00000404590 8045587 65 41. ETID:ENST00000385690 ENST00000385690 8092312 65 42. ETID:ENST00000386018 ENST00000386018 8097945 65 43. C6orf201 ENST00000360378 8116696 65 44. ETID:ENST00000385583 ENST00000385583 8136932 65 45. ETID:ENST00000385719 ENST00000385719 8148515 65 46. GPR20 ENST00000377741 8153269 65 47. ETID:ENST00000364357 ENST00000364357 8163084 65 48. ZCCHC13 ENST00000339534 8168420 65 49. GPR64 ENST00000356606 8171624 65 50. CD1D ENST00000368171 7906330 60 51. DUSP12 ENST00000367943 7906810 60 52. KLHL33 ENST00000344581 7977567 60 53. PSMB6 ENST00000270586 8003953 60 54. TMEM95 ENST00000396580 8004364 60 55. C1QBP ENST00000225698 8011850 60 56. EMILIN2 ENST00000254528 8019912 60 57. CD8A ENST00000352580 8053584 60 58. C20orf152 ENST00000349339 8062237 60 59. KCNJ4 ENST00000303592 8076072 60 60. ETID:ENST00000364163 ENST00000364163 8078310 60 61. FAM19A1 ENST00000327941 8080918 60 62. ETID:ENST00000384601 ENST00000384601 8081233 60 63. POLR2H ENST00000296223 8084488 60 64. AK000420 AK000420 8110706 60 65. ETID:ENST00000363354 ENST00000363354 8120360 60 66. APID:8121483 — 8121483 60 67. EGFL6 ENST00000361306 8166079 60 68. POU3F4 ENST00000373200 8168567 60 69. ETID:ENST00000385841 ENST00000385841 7905629 55 70. OR52A5 ENST00000307388 7946023 55 71. TIMM8B ENST00000280354 7951679 55 72. PEBP1 ENST00000261313 7959070 55 73. OR4F6 ENST00000328882 7986530 55 74. CDH15 ENST00000289746 7997880 55 75. TMEM199 ENST00000292114 8005857 55 76. ABI3 ENST00000225941 8008185 55 77. FU42842 AK124832 8008540 55 78. MC4R ENST00000299766 8023593 55 79. ETID:ENST00000410673 ENST00000410673 8045931 55 80. ISM1 ENST00000262487 8061013 55 81. LOC440957 ENST00000307106 8080416 55 82. KLB ENST00000257408 8094679 55 83. GM2A ENST00000357164 8109344 55 84. ANXA6 ENST00000354546 8115234 55 85. TAS2R40 ENST00000408947 8136846 55 86. APID:8142880 — 8142880 55 87. RARRES2 ENST00000223271 8143772 55 88. SH2D4A ENST00000265807 8144880 55 89. PLP1 ENST00000361621 8169061 55 90. ATP1A2 ENST00000392233 7906501 50 91. ETID:ENST00000386800 ENST00000386800 7932610 50 92. MATIA ENST00000372206 7934755 50 93. TSGA10IP ENST00000312452 7941469 50 94. PRDM7 ENST00000325921 8003571 50 95. ETID:ENST00000390847 ENST00000390847 8015739 50 96. ETID:ENST00000255183 ENST00000255183 8066444 50 97. MRPL39 ENST00000307301 8069620 50 98. ETID:ENST00000386327 ENST00000386327 8074884 50 99. TIPARP ENST00000295924 8083569 50 100. HES1 ENST00000232424 8084880 50 101. ETID:ENST00000363502 ENST00000363502 8089727 50 102. PRDM9 ENST00000253473 8104634 50 103. ETID:ENST00000390917 ENST00000390917 8137433 50 104. KIAA1688 ENST00000377307 8153876 50 105. ETID:ENST00000391219 ENST00000391219 8156759 50 106. ETID:ENST00000387973 ENST00000387973 8160782 50 107. LOC100129534 — 7911718 45 108. SLC2A1 ENST00000397019 7915472 45 109. AF116714 AF116714 7935359 45 110. EPS8L2 ENST00000318562 7937443 45 111. MGC3196 ENST00000307366 7948836 45 112. 7952733 — 7952733 45 113. ETID:ENST00000384391 ENST00000384391 7990031 45 114. EME2 ENST00000307394 7992379 45 115. NETO1 ENST00000299430 8023828 45 116. NPHS1 ENST00000353632 8036176 45 117. ETID:ENST00000384109 ENST00000384109 8047215 45 118. ETID:ENST00000364143 ENST00000364143 8059799 45 119. ISX ENST00000404699 8072636 45 120. IL17RB ENST00000288167 8080562 45 121. PCOLCE2 ENST00000295992 8091243 45 122. LRIT3 ENST00000409621 8096839 45 123. ETID:ENST00000330110 ENST00000330110 8104615 45 124. ZNF354C ENST00000315475 8110491 45 125. ETID:ENST00000386444 ENST00000386444 8162927 45 126. OR2G3 ENST00000320002 7911209 40 127. GLUL ENST00000331872 7922689 40 128. CCKBR ENST00000334619 7938090 40 129. OR1S2 ENST00000302592 7948312 40 130. DCUN1D5 ENST00000260247 7951325 40 131. ETID:ENST00000388291 ENST00000388291 7951420 40 132. EMG1 ENST00000261406 7953594 40 133. PTHLH ENST00000395868 7962000 40 134. PTGES3 ENST00000262033 7964250 40 135. CIDEB ENST00000258807 7978272 40 136. ETID:ENST00000383863 ENST00000383863 7985918 40 137. ATP10A ENST00000356865 7986789 40 138. MYO5C ENST00000261839 7988876 40 139. ETID:ENST00000380078 ENST00000380078 7989951 40 140. PLA2G10 ENST00000261659 7999588 40 141. HSPE1 ENST00000409729 8047223 40 142. ETID:ENST00000388324 ENST00000388324 8096249 40 143. MYO6 ENST00000369977 8120783 40 144. C7orf30 ENST00000287543 8131860 40 145. ETID:ENST00000340779 ENST00000340779 8139828 40 146. LOC441245 AK090474 8139887 40 147. CRIM2 ENST00000297801 8142821 40 148. XKR4 ENST00000327381 8146475 40 149. FAM110B ENST00000361488 8146533 40 150. PEBP4 ENST00000256404 8149725 40 151. LOC644714 BC047037 8161943 40 152. PAPPAS AY623011 /// AY623012 8163672 40 153. BEX4 ENST00000372691 8169009 40 154. HMGB4 ENST00000323936 7899905 35 155. ETID:BC028413 /// BC128516 BC028413 /// BC128516 7911676 35 156. ETID:ENST00000363919 ENST00000363919 7928750 35 157. ETID:ENST00000335621 ENST00000335621 7958942 35 158. SOX1 ENST00000330949 7970146 35 159. CTSG ENST00000216336 7978351 35 160. ETID:ENST00000362344 ENST00000362344 7982100 35 161. FU37464 ENST00000398354 7996377 35 162. RAX ENST00000334889 8023549 35 163. IL29 ENST00000333625 8028613 35 164. CEACAM20 ENST00000316962 8037482 35 165. ETID:ETID:ENST00000365557 ENST00000365557 8044684 35 166. SEC14L3 ENST00000403066 8075375 35 167. C3orf52 ENST00000264848 8081645 35 168. FETUB ENST00000265029 8084657 35 169. PIGY ENST00000273968 8101718 35 170. CDH12 ENST00000284308 8111234 35 171. LGSN ENST00000370657 8127380 35 172. ETID:ENST00000391031 ENST00000391031 8129067 35 173. HGC6.3 AB016902 8130824 35 174. tcag7.873 NM_001126493 8138797 35 175. T1560 ENST00000379496 8146527 35 176. EXOSC4 ENST00000316052 8148710 35 177. TRAM1 ENST00000262213 8151281 35 178. APID:8159371 — 8159371 35 179. OR13C2 ENST00000318797 8162936 35 180. PLS3 ENST00000289290 8169473 35 181. TMEM53 ENST00000372244 7915578 30 182. CD1B ENST00000368168 7921346 30 183. SORCS3 ENST00000393176 7930341 30 184. OR52E8 ENST00000329322 7946111 30 185. FAM160A2 ENST00000265978 7946128 30 186. LOC649946 BC017930 7952126 30 187. FAM158A ENST00000216799 7978114 30 188. APID:7986637 — 7986637 30 189. MYO1E ENST00000288235 7989277 30 190. NUPR1 ENST00000395641 8000574 30 191. APID:8005433 — 8005433 30 192. SIGLEC15 ENST00000389474 8021091 30 193. 2-Mar ENST00000393944 8025421 30 194. LOC100131554 — 8041886 30 195. GGTLC1 ENST00000335694 8065427 30 196. PSMA7 ENST00000395567 8067382 30 197. SLC25A18 ENST00000399813 8071107 30 198. C3orf14 ENST00000232519 8080847 30 199. CDX1 ENST00000377812 8109226 30 200. ETID:ENST00000386433 ENST00000386433 8121249 30 201. RRAGD ENST00000359203 8128123 30 202. SDK1 ENST00000389531 8131205 30 203. LOC168474 NR_002789 8139826 30 204. ETID:ENST00000384125 ENST00000384125 8146120 30 205. TRHR ENST00000311762 8147877 30 206. IL11RA ENST00000378817 8154934 30 207. MGC21881 /// LOC554249 ENST00000377616 8155393 30 208. ZNF483 ENST00000358151 8157193 30 209. C9orfl69 ENST00000400709 8159624 30 210. MGC21881 /// LOC554249 ENST00000377616 8161451 30 211. ETID:ENST00000364507 ENST00000364507 8168161 30 212. ETID:ENST00000387003 ENST00000387003 7914137 25 213. ETID:ENST00000388083 ENST00000388083 7929614 25 214. ETID:ENST00000365084 ENST00000365084 7934568 25 215. FRG2 /// FRG2B /// FRG2C ENST00000368515 7937251 25 216. C14orf53 ENST00000389594 7975154 25 217. ODF3L1 ENST00000332145 7985025 25 218. FAM18A ENST00000299866 7999412 25 219. PRTN3 ENST00000234347 8024048 25 220. CFD ENST00000327726 8024062 25 221. TMED1 ENST00000214869 8034101 25 222. ETID:ENST00000387150 ENST00000387150 8035937 25 223. HSD17B14 ENST00000263278 8038213 25 224. BOK ENST00000318407 8049876 25 225. ETID:ENST00000365609 ENST00000365609 8050801 25 226. SNRPB ENST00000381342 8064502 25 227. EPHA6 ENST00000338994 8081138 25 228. SCARNA22 NR_003004 8093576 25 229. FU35424 ENST00000404649 8093821 25 230. ETID:ENST00000387555 ENST00000387555 8104723 25 231. ETID:ENST00000388664 ENST00000388664 8107115 25 232. ETID:ENST00000363365 ENST00000363365 8108566 25 233. ETID:ENST00000362861 ENST00000362861 8111358 25 234. ETID:ENST00000363181 ENST00000363181 8114581 25 235. GRM6 ENST00000319065 8116253 25 236. LOC646093 — 8116400 25 237. HIST1H1E ENST00000304218 8117377 25 238. TIAM2 ENST00000367174 8122933 25 239. ETID:ENST00000363074 ENST00000363074 8128712 25 240. ETID:ENST00000385777 ENST00000385777 8148331 25 241. MTUS1 ENST00000400046 8149500 25 242. MUC21 ENST00000383351 8177931 25 243. WDR8 ENST00000378322 7911839 20 244. LOC100131195 AK097743 7933190 20 245. OR4D10 ENST00000378245 7940182 20 246. C12orf63 ENST00000342887 7957688 20 247. ELA1 ENST00000293636 7963304 20 248. DNAJC14 /// CIP29 ENST00000317269 7963935 20 249. FU40176 ENST00000322527 7972670 20 250. ETID:ENST00000410207 ENST00000410207 7985308 20 251. PSME3 ENST00000293362 8007397 20 252. ETID:ENST00000405656 ENST00000405656 8009515 20 253. HN1 ENST00000356033 8018305 20 254. ETID:ENST00000335523 ENST00000335523 8027385 20 255. CYP2A7 /// CYP2A7P1 ENST00000301146 8036981 20 256. ATXN10 ENST00000252934 8073799 20 257. ZMAT5 ENST00000397779 8075276 20 258. ETID:ENST00000362493 ENST00000362493 8084215 20 259. FHIT ENST00000341848 8088458 20 260. FRG2 /// FRG2B /// FRG2C ENST00000368515 8104124 20 261. SNX18 ENST00000381410 8105328 20 262. ETID:ENST00000362433 ENST00000362433 8128445 20 263. DTX2 ENST00000307569 8133736 20 264. ASB4 ENST00000325885 8134376 20 265. ETID:ENST00000365242 ENST00000365242 8147445 20 266. ETID:ENST00000364204 ENST00000364204 8156450 20 267. COL5A1 ENST00000355306 8159142 20 268. LCAP ENST00000357566 8170786 20 269. APOO ENST00000379226 8171823 20 270. PTPRU ENST00000373779 7899562 15 271. IL28RA ENST00000327535 7913776 15 272. NEUROG3 ENST00000242462 7934083 15 273. VAX1 ENST00000277905 7936552 15 274. LOC440131 ENST00000400540 7968323 15 275. C13orf31 ENST00000325686 7968883 15 276. ADAMTS7 ENST00000388820 7990736 15 277. SMTNL2 ENST00000338859 8003892 15 278. LOC284112 AK098506 8012004 15 279. ETV2 ENST00000402764 8027920 15 280. FUT2 ENST00000391876 8030094 15 281. C2orf39 ENST00000288710 8040672 15 282. LOC200383 /// DNAH6 ENST00000237449 8043071 15 283. ETID:ENST00000385676 ENST00000385676 8055204 15 284. CCDC108 ENST00000341552 8059028 15 285. APID:8065011 — 8065011 15 286. C22orf27 BC042980 8072400 15 287. ETID:ENST00000364444 ENST00000364444 8103041 15 288. PDLIM3 ENST00000284767 8104022 15 289. ETID:ENST00000330110 ENST00000330110 8104613 15 290. ETID:ENST00000384539 ENST00000384539 8107125 15 291. ETID:ENST00000390214 ENST00000390214 8130372 15 292. MGC72080 BC029615 8141169 15 293. C9orf128 ENST00000377984 8161154 15 294. RGAG4 NM_001024455 8173503 15 295. PIP5K1A ENST00000409426 7905365 10 296. GPR161 ENST00000367838 7922108 10 297. ETID:ENST00000385353 ENST00000385353 7925434 10 298. OR56A3 ENST00000329564 7938066 10 299. OR5A2 ENST00000302040 7948377 10 300. WNT11 ENST00000322563 7950534 10 301. APID:7960259 — 7960259 10 302. RAB37 ENST00000340415 8009666 10 303. LAIR1 ENST00000391742 8039257 10 304. ETID:ENST00000388385 ENST00000388385 8041420 10 305. CHAC2 ENST00000295304 8041961 10 306. ETID:ENST00000387574 ENST00000387574 8062337 10 307. ETID:ENST00000387884 ENST00000387884 8062962 10 308. BCL2L1 ENST00000376062 8065569 10 309. KDELR3 ENST00000409006 8073015 10 310. TMEM108 ENST00000321871 8082767 10 311. SPATA16 ENST00000351008 8092187 10 312. BTC ENST00000395743 8101002 10 313. SUPT3H ENST00000371460 8126710 10 314. EIF4B ENST00000262056 8135268 10 315. CHMP4C ENST00000297265 8147057 10 316. H2BFM ENST00000243297 8169080 10 317. APID:8180392 — 8180392 10 318. NR5A2 ENST00000367362 7908597 5 319. TRIM49 ENST00000332682 7939884 5 320. MS4A6A ENST00000323961 7948455 5 321. C11orf1O ENST00000257262 7948606 5 322. HSPC152 ENST00000308774 7949075 5 323. RASAL1 ENST00000261729 7966542 5 324. ETID:ENST00000387531 ENST00000387531 7975694 5 325. PLDN ENST00000220531 7983502 5 326. PER1 ENST00000354903 8012349 5 327. ALS2CR12 ENST00000286190 8058203 5 328. C20orf142 ENST00000396825 8066407 5 329. ETID:ENST00000386848 ENST00000386848 8073680 5 330. LOC100129113 AK094477 8074307 5 331. CERK ENST00000216264 8076792 5 332. ETID:ENST00000385783 ENST00000385783 8083937 5 333. PROS1 ENST00000407433 8089015 5 334. PCDHGA ENST00000378105 8108757 5 335. MUC3B /// MUC3A ENST00000332750 8135015 5 336. ETID:ENST00000365355 ENST00000365355 8142534 5 337. APID:8156969 — 8156969 5 338. ETID:ENST00000358047 ENST00000410626 8163013 5 339. FAM47C ENST00000358047 8166703 5 340. NXF4 ENST00000360035 8168940 5 341. PIWIL4 ENST00000299001 7943240 0 342. ETID:ENST00000384727 ENST00000384727 7968732 0 343. ALDH6A1 ENST00000350259 7980098 0 344. TMEM64 ENST00000324979 8151747 0 345. ETID:ENST00000364816 ENST00000364816 8168079 0 Table C(iii) - Optional biomarkers 346. C11orf73 ENST00000278483 7942932 100 347. OR5B21 ENST00000278483 7948330 100 348. NOX5 /// SPESP1 ENST00000395421 7984488 100 349. AMICA1 ENST00000356289 7952022 95 350. ETID:ENST00000387422 ENST00000387422 8159963 90 351. SERPINB1 ENST00000380739 8123598 85 352. ETID:ENST00000387396 ENST00000387396 8065752 80 353. CD1A ENST00000289429 7906339 75 354. RAB9A ENST00000243325 8166098 75 355. C10orf90 ENST00000356858 7936996 70 356. LPXN ENST00000263845 7948332 65 357. GGTLC2 ENST00000215938 8071662 65 358. ETID:ENST00000384680 ENST00000384680 8051862 60 359. PNPLA4 ENST00000381042 8171229 60 360. CAMK1D ENST00000378845 7926223 55 361. ETID:ENST00000410754 ENST00000410754 8120979 55 362. CDC123 ENST00000281141 7926207 50 363. WDFY1 ENST00000233055 8059361 50 364. hCG_1749005 — 8167640 50 365. CD48 ENST00000368046 7921667 45 366. MED19 ENST00000337672 7948293 45 367. DRD5 ENST00000304374 8053725 45 368. APID:7967586 — 7967586 40 369. VAPA ENST00000340541 8020129 40 370. FAM71F1 ENST00000315184 8135945 40 371. APID:8141421 — 8141421 35 372. HCCS ENST00000321143 8165995 35 373. CNR2 ENST00000374472 7913705 25 374. OIT3 ENST00000334011 7928330 25 375. BMP2K ENST00000335016 8096004 25 376. ZNF366 ENST00000318442 8112584 25 377. SYT17 ENST00000396244 7993624 20 378. CALM2 ENST00000272298 8052010 20 379. XK ENST00000378616 8166723 20 380. ART4 ENST00000228936 7961507 15 381. ETID:ENST00000332418 ENST00000332418 7997907 15 382. ZFP36L2 ENST00000282388 8051814 15 383. GSTA3 ENST00000370968 8127087 15 384. COL21A1 ENST00000370817 8127201 15 385. ETID:ENST00000332418 ENST00000332418 8170322 15 386. FUCA1 ENST00000374479 7913694 5 387. ETID:ENST00000386628 ENST00000386628 7925821 5 388. AZU1 ENST00000334630 8024038 5 389. IL7R ENST00000303115 8104901 5

The table shows predictor genes in GRPS, identified by one-way ANOVA p-value filtering and Backward elimination. When possible, the Ensembl transcript ID was used as gene identifier. The Affymetrix Probe Set ID for the Human ST 1.0 Array are provided.

¹Validation call frequency (%) describes the occurrence of each predictor transcript among the 20 biomarker signatures obtained by cross validation.

EXAMPLE 3

The SenzaCell cell line may also be used for classification of the potency of skin sensitizers using the GARD platform, i.e. for determining the skin sensitizing potency of test agents.

Such methods may be performed in line with those described in the functional analysis section of Example 1 above for identifying skin sensitizers but adapted to use the biomarker signature of Table D in order to determine potency. See also the specific methodology described in detail in Zeller et al. (2017) The GARD platform for potency assessment of skin sensitizing chemicals. ALTEX Online first published Apr. 12, 2017, version 2 https://doi.org/10.14573/altex.1701101, and also described in WO 2017/162773.

TABLE D Transcript cluster ID VCF (%) Gene Title Gene Symbol Gene assignment Table D(i) 8117594 93 histone cluster 1, H2bm HIST1H2BM NM_003521 8124385 86 histone cluster 1, H4b HIST1H4B NM_003544 8124430 81 histone cluster 1, H1d HIST1H1D NM_005320 8095221 80 phosphoribosylaminoimidazole PAICS NM_001079524 carboxylase, phosphoribosylaminoimidazole succinocarboxamide synthetase 8124413 69 histone cluster 1, H4d HIST1H4D NM_003539 8117608 56 histone cluster 1, H2al /// histone HIST1H2AL /// NM_003511 cluster 1, H2bn HIST1H2BN 7994109 51 polo-like kinase 1 PLK1 NM_005030 7904433 44 phosphoglycerate dehydrogenase PHGDH ENST00000369407 8082350 44 minichromosome maintenance MCM2 NM_004526 complex component 2 8141395 43 minichromosome maintenance MCM7 NM_001278595 complex component 7 7903893 41 CD53 molecule CD53 NM_000560 8118669 41 kinesin family member C1 KIFC1 NM_002263 7938348 40 WEE1 G2 checkpoint kinase WEE1 NM_001143976 7957737 34 thymopoietin TMPO NM_001032283 8146357 34 minichromosome maintenance MCM4 NM_005914 complex component 4 7918300 33 proline/serine-rich coiled-coil 1 PSRC1 NM_001005290 8054329 31 ring finger protein 149 RNF149 NM_173647 8055426 31 minichromosome maintenance MCM6 NM_005915 complex component 6 8072687 29 minichromosome maintenance MCM5 NM_006739 complex component 5 8003503 20 Fanconi anemia complementation FANCA NM_000135 group A Table D(ii) 8040843 44 carbamoyl-phosphate synthetase 2, CAD NM_004341 aspartate transcarbamylase, and dihydroorotase 7898549 42 MRT4 homolog, ribosome maturation MRTO4 NM_016183 factor 7901091 41 target of EGR1, member 1 (nuclear) TOE1 NM_025077 7900699 40 cell division cycle 20 CDC20 NM_001255 8121087 36 peptidase M20 domain containing 2 PM20D2 NM_00101085 8084630 35 NmrA-like family domain containing 1 LOC344887 NR_033752 pseudogene 7958455 30 uracil DNA glycosylase UNG NM_003362 8119088 27 cyclin-dependent kinase inhibitor 1A CDKN1A NM_000389 (p21, Cip1) 8117395 26 histone cluster 1, H2bf HIST1H2BF NM_003522 8124527 25 histone cluster 1, H1b HIST1H1B NM_005322 7896697 21 unknown unknown unknown 8097417 20 jade family PHD finger 1 JADE1 NM_001287441 7977445 18 KIAA0125 KIAA0125 NR_026800 7985213 17 cholinergic receptor, nicotinic alpha 5 CHRNA5 NM_000745 8068478 17 chromatin assembly factor 1, subunit B CHAF1B /// NM_005441 (p60) /// MORC family CW-type zinc MORC3 finger 3 8099721 16 sel-1 suppressor of lin-12-like 3 SEL1L3 NM_015187 (C. elegans) 7948192 14 structure specific recognition protein 1 SSRP1 NM_003146 7960340 14 forkhead box M1 FOXM1 NM_001243088 8107706 14 lamin B1 LMNB1 NM_001198557 8124524 14 histone cluster 1, H2ak HIST1H2AK NM_003510 8040712 11 centromere protein A CENPA NM_001042426 8043602 10 non-SMC condensin I complex subunit H NCAPH NM_001281710 8124394 7 histone cluster 1, H2bb HIST1H2BB NM_021062 8144931 7 ATPase, H+ transporting, lysosomal ATP6V1B2 NM_001693 56/58 kDa, V1 subunit B2 7999025 5 TNF receptor-associated protein 1 TRAP1 NM_001272049 Table D(iii) 8004804 83 phosphoribosylformylglycinamidine PFAS NM_012393 synthase 8005839 63 transmembrane protein 97 TMEM97 NM_014573 7916432 61 24-dehydrocholesterol reductase DHCR24 NM_014762 7948656 30 ferritin, heavy polypeptide 1 FTH1 NM_002032 8117408 30 histone cluster 1, H2ae HIST1H2AE NM_021052 8002303 17 NAD(P)H dehydrogenase, quinone 1 NQO1 NM_000903 7939341 8 CD44 molecule (Indian blood group) CD44 NM_000610

EXAMPLE 4

The SenzaCell cell line may also be used for identifying proteins which are allergenic in a mammal.

The methods may be performed in line with the functional analysis section of Example 1 above for identifying skin sensitizers but adapted to use the biomarker signature of Table E in order to identify allergenic proteins. See also the methodology described in Zeller et al. An alternative biomarker-based approach for the prediction of proteins known to sensitize the respiratory tract. Toxicol In Vitro, 2017 Oct. 7; 46:155-162.

A possible method of performing allergenic predictions on proteins is provided as follows. It is based on the GARD Protein Allergen Prediction Signature of Table E (herein referred to as “GARD PAPS”). The readout of GARD is a set of genomic predictors, referred to as the GARD Prediction Signature (GPS).

The genetic material of the cells are isolated from cell samples stimulated with the test substances. The transcriptional levels of the GARD PAPS are quantified and compared to a reference data set by the use of multivariate statistical prediction models. Each sample is assigned a decision value based on its transcriptional levels of the GARD PAPS, as measured by Affymetrix microarray technology. Final predictions are based on the mean value from biological triplicate samples.

All proteins are screened for cytotoxic effects and the GARD input concentration established for each protein.

LPS may be used as a negative control, ensuring that observed signals generated by samples are not due to endotoxin contaminants. Endotoxin contents of the samples may be quantified using a LAL test. The LPS concentration used as a negative control may be set to correspond to the highest endotoxin concentration present in a sample.

All test proteins and substances are assayed in biological triplicates. All replicates of test substances are assigned decision values using the GARD PAPS prediction model, as described (see materials and methods below).

Materials & Methods

The comprehensive materials and methods for the GARD testing strategy, used to generate data according to this example, is included below.

Deviations from Standard Protocols

The cytotoxic effects of the test proteins may be monitored in the concentration range 1-25 μg/ml. 25 μg/ml may be used as the GARD input concentration.

When stimulating the cells with the test substances, the proteins may first be dissolved in PBS to a concentration of 1000 μg/ml. 50 μl of the dissolved proteins then added to 1.95 ml of seeded cells. LPS may be diluted in PBS to a final concentration of 0.1 μg/ml and 2 μl added to 1.998 ml of cell suspension.

The cells are stimulated for 24 h after which they are lysed in TRIzol reagent. RNA is purified, labeled and hybridized to Affymetrix arrays.

The quantified transcription levels are single chain array normalized (SCAN) and the GARD PAPS extracted from the data set. Unstimulated samples, from the test samples and the reference samples used to build the prediction model, may be used to remove batch effects between data sets.

Final classifications are made using a support vector machine (SVM) which had been trained on the reference samples used to establish the GARD PAPS.

Cell Line Maintenance and Seeding of Cells for Stimulation

The SenzaCell cell line may be maintained in α-MEM (Thermo Scientific Hyclone, Logan, Utah) supplemented with 20% (volume/volume) fetal calf serum (Life Technologies, Carlsbad, Calif.) and 40 ng/ml rhGM-CSF (Bayer HealthCare Pharmaceuticals, Seattle, Wash.), as described (Johansson et al., 2011). A media change during expansion is performed every 3-4 days, or when cell-density exceeds 5-600.000 cells/ml. Proliferating progenitor cells are used for the assay, with no further differentiation steps applied. During media exchange, cells are counted and suspended to 200.000 cells/ml. Working stocks of cultures are grown for a maximum of 20 passages or two months after thawing. For chemical stimulation of cells, 1.8 ml is seeded in 24-well plates at a concentration of 222.000 cells/ml. The compound to be used for stimulation is added in a volume of 200 μl, diluting the cell density to 200.000 cells/ml during incubation.

Phenotypic Analysis

Prior to any chemical stimulation, a qualitative phenotypic analysis is performed to ensure that proliferating cells are in an immature stage. All cell surface staining and washing steps are performed in PBS containing 1% BSA (w/v). Cells are incubated with specific mouse monoclonal antibodies (mAbs) for 15 min at 4° C. The following mAbs are used for flow cytometry: FITC-conjugated CD1a (DakoCytomation, Glostrup, Denmark), CD34, CD86, and HLA-DR (BD Biosciences, San Diego, Calif.), PE-conjugated CD14 (DakoCytomation), CD54 and CD80 (BD Biosciences). Mouse IgG1, conjugated to FITC or PE are used as isotype controls (BD Biosciences) and propidium iodide (PI) (BD Biosciences) is used to assess cell viability. FACSDiva software is used for data acquisition with FACSCanto II instrument (BD Bioscience). 10,000 events are acquired, gates are set based on light scatter properties to exclude debris and non-viable cells, and quadrants are set according to the signals from isotype controls. Further data analysis is performed, using FCS Express V3 (De Novo Software, Los Angeles, Calif.). For a reference phenotype of unstimulated cells, see Johansson et al., 2011.

Chemical Handling and Assessment of Cytotoxicity

All chemicals are stored according to instructions from the supplier, in order to ensure stability of compounds. Chemicals are dissolved in water when possible or DMSO for hydrophobic compounds. As many chemicals will have a toxic effect on the cells, cytotoxic effects of test substances are monitored. Some chemicals are poorly dissolved in cell media; therefore the maximum soluble concentration is assessed as well. The chemical that is to be tested is titrated to concentrations ranging from 1 μM to the maximum soluble concentration in cell media. For freely soluble compounds, 500 μM is set as the upper end of the titration range. For cell stimulations, chemicals are dissolved in its appropriate solvent as 1000× stocks of target in-well concentration, called stock A. A 10× stock, called stock B, is prepared by taking 10 μl of stock A to 990 μl of cell media. 200 μl of stock B is then added to the wells containing 1.8 ml seeded cells. For the samples dissolved in DMSO, the in-well concentration of DMSO will thus be 0.1%. Following incubation for 24 h at 37° C. and 5% CO2, harvested cells are stained with PI and analyzed with a flow cytometer. PI-negative cells are defined as viable, and the relative viability of cells stimulated with each concentration in the titration range is calculated as

${{Relative}\mspace{14mu}{viability}} = {\frac{{fraction}\mspace{14mu}{of}\mspace{14mu}{viable}\mspace{14mu}{stimulated}\mspace{14mu}{cells}}{{fraction}\mspace{14mu}{of}\mspace{14mu}{viable}\mspace{14mu}{unstimulated}\mspace{14mu}{cells}} \cdot 100}$

For toxic compounds, the concentration yielding 90% relative viability (Rv90) is used for the GARD assay, the reason being that this concentration demonstrates bioavailability of the compound used for stimulation, while not impairing immunological responses. For non-toxic compounds, a concentration of 500 μM is used if possible. For non-toxic compounds that are insoluble at 500 μM in cell media, the highest soluble concentration is used.

Whichever of these three criteria is met, only one concentration will be used for the genomic assay. The concentration to be used for any given chemical is termed the ‘GARD input concentration’.

Chemical Exposure of Cells for GARD

Once the GARD input concentration for chemicals to be assayed is established, the cells are stimulated again as described above, this time only using the GARD input concentration. All assessments of test substances are assayed in biological triplicates, performed at different time-points and using different cell cultures. Following incubation for 24 h at 37° C. and 5% CO2, cells from one well are lysed in 0.5 ml TRIzol reagent (Life Technologies) and stored at −20° C. until RNA is extracted. In parallel, a small sample of stimulated cells is taken for PI staining and analysis with flow cytometry, to ensure the expected relative viability of stimulated cells is reached.

Preparation of Benchmark Controls

In addition to any test substance(s) to be assayed within a campaign, a set of benchmark controls are performed, for the purpose of prediction model calibration and estimation of prediction performance. For details regarding benchmark controls used in each specific campaign, see the main document to which this appendix is attached.

Isolation of RNA and GPS Quantification Using Nanostring nCounter System

RNA isolation from lysed cells is performed using commercially available kits (Direct-Zol RNA MiniPrep, Zymo Research, Irvine, Calif.). Total RNA is quantified and quality controlled using BioAnalyzer equipment (Agilent, Santa Clara, Calif.). A total of 100 ng of RNA is used as sample input in a hybridization assay with GPS specific reporter probe CodeSet (Nanostring, Seattle, Wash.). The hybridized RNA-CodeSet sample is prepared on chip using nCounter Prepstation and individual transcripts of the GPS is quantified using Nanostring Digital Analyzer (Nanostring).

Data Acquisition and Normalization

Raw data is exported from the Digital Analyzer and counts of individual transcripts of the GPS are single-chip normalized with a count per total counts algorithm. Normalized data consists of a S by V matrix, where S denotes the number of samples in the GARD campaign, and V denotes the number of quantified transcripts of the GPS.

Data Analysis—Generation of Calibrated Support Vector Machine Decision Values

All further downstream analysis is performed using application-based software, developed in the open source statistical environment R. A support vector machine (SVM) is trained using historical data used for GPS establishment (Johansson et al., 2011). All samples from test substances and benchmark controls from the specific GARD campaign are predicted using the trained SVM, assigning each sample with a SVM decision value. The predictor performance is estimated by identification of the area under the receiver operating characteristic (ROC AUC) of the predicted class of benchmark controls.

GARD Classifications of Test Substance(s)

The GARD prediction model is defined as follows:

If the mean decision value of all available biological replicates of a test substance is greater than zero, the test substance is classified as a sensitizer.

Scripts

Listed below are details of the script, written in R code, which may be used to perform the method:

# Required files: # - GARD_PAPS.R # - raw affymetrix files of test samples in subdir: raw_affy/ # - Annotation of the new data describing the unstimulated samples raw_affy/annotation.rds # - Historical data stored in trainingset.rds # Load required dependencies source(‘~/GARD_PAPS.R’) # Read Training Data train = readRDS(‘~/trainingset.rds') # Read new data and annotations new_data = read_raw_affy(‘~/raw_affy/*.CEL’) new_data_ref = readRDS(‘~/raw_affy/annotation.rds') # Normalize the new data normalized_data = normalize_train_test(train = train, test = new_data, test_reference = new_data_ref) # Train model on historical data model = train_svm(normalized_data$train) # Predict New Samples predictions = predict_test_samples(model = model, data=normalized_data$test)

TABLE E Probe Gene Set ID Transcript ID Transcript Description Gene Title Symbol Table E(i) 8104107 ENST00000326754 /// Tripartite motif family-like protein tripartite motif TRIML2 1 BC111959 /// 2 gene:ENSG00000179046 /// family-like 2 NM_173553 Homo sapiens tripartite motif family-like 2, mRNA (cDNA clone MGC:138164 IMAGE:8327427), complete cds. /// Homo sapiens tripartite motif family-like 2 (TRIML2), mRNA. 7984862 ENST00000343932 /// Isoform 2 of Cytochrome P4501A2 cytochrome P450, CYP1A2 2 M55053 /// gene:ENSG00000140505 /// family 1, NM_000761 Human cytochrome P-3-450 subfamily A, mRNA, complete cds. /// Homo sapiens polypeptide 2 cytochrome P450, family 1, subfamily A, polypeptide 2 (CYP1A2), mRNA. 8103341 ENST00000311277 /// Isoform 1 of Microtubule- microtubule- MAP9 3 ENST00000393836 /// associated protein 9 associated ENST00000379248 /// gene:ENSG00000164114 /// protein 9 ENST00000393834 /// Isoform 2 of Microtubule- AY690636 /// associated protein 9 NM_001039580 gene:ENSG00000164114 /// Putative uncharacterized protein MAP9 gene:ENSG00000164114 /// Putative uncharacterized protein MAP9 gene:ENSG00000164114 /// Homo sapiens ASAP mRNA, complete cds. /// Homo sapiens microtubule-associated protein 9 (MAP9), mRNA. 8021468 GENSCAN00000031245 /// cdna:Genscan similar to 40S LOC100131971 4 XM_001722472 chromosome:NCBI36:18:55579770:55587249:1 /// ribosomal PREDICTED: protein S26 Homo sapiens similar to 40S ribosomal protein S26 (LOC100131971), mRNA. 8166945 GENSCAN00000048751 /// cdna:Genscan — — 5 ENST00000354794 chromosome:NCBI36:X:44028478:44030436:1 /// cdna:pseudogene chromosome:NCBI36:X:44028257:44030436:1 gene:ENSG00000198414 8021461 ENST00000256857 /// gastrin-releasing peptide isoform gastrin-releasing GRP 6 BC004488 /// 1 preproprotein peptide NM_001012512 /// gene:ENSG00000134443 /// NM_001012513 /// Homo sapiens gastrin-releasing NM_002091 peptide, mRNA (cDNA clone MGC:10712 IMAGE:3936083), complete cds. /// Homo sapiens gastrin-releasing peptide (GRP), transcript variant 2, mRNA. /// Homo sapiens gastrin-releasing peptide (GRP), transcript variant 3, mRNA. /// Homo sapiens gastrin-releasing peptide (GRP), transcript variant 1, mRNA. 8088903 GENSCAN00000015233 /// cdna:Genscan — — 7 ENST00000358162 chromosome:NCBI36:3:75557484:75756994:−1 /// cdna:pseudogene chromosome:NCBI36:3:75730726:75731229:−1 gene:ENSG00000196454 8053064 ENST00000409969 /// cdna:known MOB1, Mps One MOBKL1B 8 ENST00000264089 /// chromosome:NCBI36:2:74235673:74259503:−1 Binder kinase ENST00000377668 /// gene:ENSG00000114978 /// activator- AK001650 /// Isoform 1 of Mps one binder like 1B (yeast) NM_018221 kinase activator-like 1B gene:ENSG00000114978 /// Putative uncharacterized protein MOBKL1B (Fragment) gene:ENSG00000114978 /// Homo sapiens cDNA FLJ10788 fis, clone NT2RP4000498, moderately similar to MOB1 PROTEIN. /// Homo sapiens MOB1, Mps One Binder kinase activator-like 1B (yeast) (MOBKL1B), mRNA. 7945130 ENST00000411383 /// ncrna:misc_RNA — — 9 ENST00000386420 chromosome:NCBI36:11:126782956:126783275:1 gene:ENSG00000223315 /// ncrna:snRNA_pseudogene chromosome:NCBI36:11:126782956:126783196:1 gene:ENSG00000209155 8160260 ENST00000380672 /// Isoform 1 of Zinc finger protein basonuclin 2 BNC2 10 ENST00000380667 /// basonuclin-2 ENST00000380666 /// gene:ENSG00000173068 /// AY438376 /// Basonuclin 2 NM_017637 gene:ENSG00000173068 /// Isoform 2 of Zinc finger protein basonuclin-2 gene:ENSG00000173068 /// Homo sapiens basonuclin2 mRNA, complete cds. /// Homo sapiens basonuclin 2 (BNC2), mRNA. 7934708 ENST00000372329 /// Pulmonary surfactant-associated surfactant SFTPA1 /// 11 ENST00000372327 /// protein A2 protein A1 /// SFTPA1B /// ENST00000372325 /// gene:ENSG00000182314 /// surfactant SFTPA2 /// ENST00000398636 /// cDNA FLJ54288, moderately protein A1B /// SFTPA2B ENST00000372316 /// similar to Pulmonary surfactant- surfactant ENST00000372313 /// associated protein A1 protein A2 /// ENST00000372308 /// gene:ENSG00000185303 /// surfactant ENST00000394569 /// Pulmonary surfactant-associated protein A2B AK298029 /// protein A1 AK298034 /// gene:ENSG00000185303 /// BC157866 /// Pulmonary surfactant-associated BC157890 /// protein A1 NM_006926 /// gene:ENSG00000185303 /// NM_001098668 /// Pulmonary surfactant-associated NM_001093770 /// protein A2 NM_005411 gene:ENSG00000122854 /// cDNA FLJ54288, moderately similar to Pulmonary surfactant- associated protein A1 gene:ENSG00000122852 /// Pulmonary surfactant-associated protein A1 gene:ENSG00000122852 /// Pulmonary surfactant-associated protein A1 gene:ENSG00000122852 /// Homo sapiens cDNA FLJ51913 complete cds, highly similar to Pulmonary surfactant-associated protein A1 precursor. /// Homo sapiens cDNA FLJ50593 complete cds, moderately similar to Pulmonary surfactant- associated protein A1 precursor. /// Homo sapiens surfactant protein A2B, mRNA (cDNA clone MGC:189761 IMAGE:9057085), complete cds. /// Homo sapiens surfactant protein A2B, mRNA (cDNA clone MGC:189714 IMAGE:8862711), complete cds. /// Homo sapiens surfactant protein A2B (SFTPA2B), mRNA. /// Homo sapiens surfactant protein A2 (SFTPA2), mRNA. /// Homo sapiens surfactant protein A1 (SFTPA1), mRNA. /// Homo sapiens surfactant protein A1B (SFTPA1B), mRNA. 8068046 ENST00000407713 /// B lymphocyte activation-related chromosome 21 open C21orf118 12 AF304442 protein BC-1514 reading frame 118 gene:ENSG00000219130 /// Homo sapiens B lymphocyte activation-related protein BC- 1514 mRNA, complete cds. 8131301 ENST00000365169 ncrna:snRNA 13 chromosome:NCBI36:7:5186218:5186319:1 gene:ENSG00000202039 Table E(ii) 7934698 ENST00000372329 /// Pulmonary surfactant-associated surfactant SFTPA1 /// 14 ENST00000372327 /// protein A2 protein A1 /// SFTPA1B /// ENST00000372325 /// gene:ENSG00000182314 /// surfactant SFTPA2 /// ENST00000398636 /// cDNA FLJ54288, moderately protein A1B /// SFTPA2B ENST00000372316 /// similar to Pulmonary surfactant- surfactant ENST00000372313 /// associated protein A1 protein A2 /// ENST00000372308 /// gene:ENSG00000185303 /// surfactant ENST00000394569 /// Pulmonary surfactant-associated protein A2B AK298029 /// protein A1 AK298034 /// gene:ENSG00000185303 /// BC157866 /// Pulmonary surfactant-associated BC157890 /// protein A1 NM_006926 /// gene:ENSG00000185303 /// NM_001098668 /// Pulmonary surfactant-associated NM_001093770 /// protein A2 NM_005411 gene:ENSG00000122854 /// cDNA FLJ54288, moderately similar to Pulmonary surfactant- associated protein A1 gene:ENSG00000122852 /// Pulmonary surfactant-associated protein A1 gene:ENSG00000122852 /// Pulmonary surfactant-associated protein A1 gene:ENSG00000122852 /// Homo sapiens cDNA FLJ51913 complete cds, highly similar to Pulmonary surfactant-associated protein A1 precursor. /// Homo sapiens cDNA FLJ50593 complete cds, moderately similar to Pulmonary surfactant- associated protein A1 precursor. /// Homo sapiens surfactant protein A2B, mRNA (cDNA clone MGC:189761 IMAGE:9057085), complete cds. /// Homo sapiens surfactant protein A2B, mRNA (cDNA clone MGC:189714 IMAGE:8862711), complete cds. /// Homo sapiens surfactant protein A2B (SFTPA2B), mRNA. /// Homo sapiens surfactant protein A2 (SFTPA2), mRNA. /// Homo sapiens surfactant protein A1 (SFTPA1), mRNA. /// Homo sapiens surfactant protein A1B (SFTPA1B), mRNA. 7916882 ENST00000262340 /// Retinal pigment epithelium- retinal pigment RPE65 15 U18991 /// NM_000329 specific 65 kDa protein epithelium-specific gene:ENSG00000116745 /// protein 65 kDa Human retinal pigment epithelium-specific 61 kDa protein (RPE65) mRNA, complete cds. /// Homo sapiens retinal pigment epithelium-specific protein 6 kDa (RPE65), mRNA. 8149324 ENST00000284486 /// UPF0484 protein FAM167A family with FAM167A 16 ENST00000398342 /// gene:ENSG00000154319 /// sequence AL834122 /// FAM167A protein similarity 167, NM_053279 gene:ENSG00000154319 /// member A Homo sapiens mRNA; cDNA DKFZp761 F1821 (from clone DKFZp761 F1821). /// Homo sapiens family with sequence similarity 167, member A (FAM167A), mRNA. 7914992 ENST00000387309 ncrna:rRNA_pseudogene — — 17 chromosome:NCBI36:1:37502886:37502974:−1 gene:ENSG00000210044 8021774 ENST00000405150 /// FLJ44313 protein FLJ44313 protein FLJ44313 18 AK126293 gene:ENSG00000220032 /// Homo sapiens cDNA FLJ44313 fis, clone TRACH2025911. 7965573 ENST00000344911 /// Isoform 2 of Netrin-4 netrin 4 NTN4 19 ENST00000343702 /// gene:ENSG00000074527 /// AF278532 /// Isoform 1 of Netrin-4 NM_021229 gene:ENSG00000074527 /// Homo sapiens beta-netrin mRNA, complete cds. /// Homo sapiens netrin4 (NTN4), mRNA. 8057771 ENST00000358470 /// Signal transducer and activator of signal transducer STAT4 20 ENST00000392320 /// transcription 4 and activator of BC031212 /// gene:ENSG00000138378 /// transcription 4 NM_003151 Signal transducer and activator of transcription 4 gene:ENSG00000138378 /// Homo sapiens signal transducer and activator of transcription 4, mRNA (cDNA clone MGC:39492 IMAGE:4830583), complete cds. /// Homo sapiens signal transducer and activator of transcription 4 (STAT4), mRNA. 8111417 ENST00000342059 /// Isoform AIM-1c of Membrane- solute carrier SLC45A2 21 ENST00000296589 /// associated transporter protein family 45, ENST00000382102 /// gene:ENSG00000164175 /// member 2 ENST00000345083 /// Isoform AIM-1a of Membrane- AF172849 /// associated transporter protein NM_016180 /// gene:ENSG00000164175 /// NM_001012509 membrane-associated transporter protein isoform b gene:ENSG00000164175 /// Isoform AIM-1b of Membrane- associated transporter protein gene:ENSG00000164175 /// Homo sapiens AIM-1 protein mRNA, complete cds. /// Homo sapiens solute carrier family 45, member 2 (SLC45A2), transcript variant 1, mRNA. /// Homo sapiens solute carrier family 45, member 2 (SLC45A2), transcript variant 2, mRNA. 8161381 ENST00000316269 /// hypothetical protein hypothetical protein LOC100133036 /// 22 AK125850 /// gene:ENSG00000204831 /// LOC100133036 /// FAM95B1 AL833349 Homo sapiens cDNA FLJ43862 family with fis, clone TESTI4007775. /// sequence similarity Homo sapiens mRNA; cDNA 95, member B1 DKFZp686P0734 (from clone DKFZp686P0734). 8165032 ENST00000371763 /// Glycosyltransferase 6 domain- glycosyltransferase 6 GLT6D1 23 AY336054 /// containing protein 1 domain containing 1 NM_182974 gene:ENSG00000204007 /// Homo sapiens gycosyltransferase family 6 like-protein mRNA, complete cds. /// Homo sapiens glycosyltransferase 6 domain containing 1 (GLT6D1), mRNA. 8113276 AF119888 Homo sapiens PRO2613 mRNA, — — 24 complete cds. 8116874 ENST00000283141 /// Isoform 1 of Synaptonemal synaptonemal complex SYCP2L 25 ENST00000341041 /// complex protein 2-like protein 2-like AK128130 /// gene:ENSG00000153157 /// NM_001040274 Isoform 1 of Synaptonemal complex protein 2-like gene:ENSG00000153157 /// Homo sapiens cDNA FLJ46251 fis, clone TESTI4021713, weakly similar to Homo sapiens synaptonemal complex protein 2 (SYCP2). /// Homo sapiens synaptonemal complex protein 2- like (SYCP2L), mRNA. 8030753 ENST00000326003 /// Prostate-specific antigen kallikrein-related KLK3 26 ENST00000326052 /// gene:ENSG00000142515 /// peptidase 3 ENST00000360617 /// prostate specific antigen isoform 5 BC005307 /// preproprotein NM_001648 /// gene:ENSG00000142515 /// NM_001030047 /// prostate specific antigen isoform 3 NM_001030048 /// preproprotein NM_001030049 /// gene:ENSG00000142515 /// NM_001030050 Homo sapiens kallikrein-related peptidase 3, mRNA (cDNA clone MGC:12378 IMAGE:3950475), complete cds. /// Homo sapiens kallikrein-related peptidase 3 (KLK3), transcript variant 1, mRNA. /// Homo sapiens kallikrein-related peptidase 3 (KLK3), transcript variant 3, mRNA. /// Homo sapiens kallikrein-related peptidase 3 (KLK3), transcript variant 4, mRNA. /// Homo sapiens kallikrein-related peptidase 3 (KLK3), transcript variant 5, mRNA. /// Homo sapiens kallikrein-related peptidase 3 (KLK3), transcript variant 6, mRNA. 8098439 GENSCAN00000042517 cdna:Genscan — — 27 chromosome:NCBI36:4:182680810:182745578:1 8076819 ENST00000380990 /// Conserved hypothetical protein FLJ46257 protein RP11- 28 AK128136 gene:ENSG00000205634 /// 191L9.1 Homo sapiens cDNA FLJ46257 fis, clone TESTI4024240. 7957819 ENST00000392989 /// Isoform 2 of Vesicular glutamate solute carrier SLC17A8 29 ENST00000323346 /// transporter 3 family 17 AK128319 /// gene:ENSG00000179520 /// (sodium-dependent NM_139319 Isoform 1 of Vesicular glutamate inorganic phosphate transporter 3 cotransporter), gene:ENSG00000179520 /// member 8 Homo sapiens cDNA FLJ46460 fis, clone THYMU3021404, highly similar to Homo sapiens solute carrier family 17 (sodium- dependent inorganic phosphate cotransporter), member 8 (SLC17A8), mRNA. /// Homo sapiens solute carrier family 17 (sodium-dependent inorganic phosphate cotransporter), member 8 (SLC17A8), mRNA. 7986229 ENST00000268164 /// Alpha-2,8-sialyltransferase 8B ST8 alpha-N-acetyl- ST8SIA2 30 ENST00000378973 /// gene:ENSG00000140557 /// neuraminide alpha-2,8- BC096202 /// ST8SIA2 protein sialyltransferase 2 NM_006011 gene:ENSG00000140557 /// Homo sapiens ST8 alpha-N- acetyl-neuraminide alpha-2,8- sialyltransferase 2, mRNA (cDNA clone MGC:116854 IMAGE:40004644), complete cds. /// Homo sapiens ST8 alpha-N- acetyl-neuraminide alpha-2,8- sialyltransferase 2 (ST8SIA2), mRNA. 7995310 ENST00000319817 Putative uncharacterized protein — — 31 MGC3480 gene:ENSG00000179755 8138920 ENST00000387801 /// ncrna:snRNA_pseudogene — — 32 ENST00000387652 /// chromosome:NCBI36:12:62305744:62305830:−1 ENST00000387676 /// gene:ENSG00000210536 /// ENST00000387734 /// ncrna:snRNA_pseudogene ENST00000386042 chromosome:NCBI36:7:29701450:29701536:1 gene:ENSG00000210387 /// ncrna:snRNA_pseudogene chromosome:NCBI36:7:32724496:32724582:−1 gene:ENSG00000210411 /// ncrna:snRNA_pseudogene chromosome:NCBI36:7:35155590:35155669:−1 gene:ENSG00000210469 /// ncrna:snRNA_pseudogene chromosome:NCBI36:7:102669899:102669985:−1 gene:ENSG00000208777 8055492 ENST00000385544 ncrna:Mt_tRNA_pseudogene — — 33 chromosome:NCBI36:2:140697147:140697215:−1 gene:ENSG00000208279 7995674 ENST00000290552 /// Iroquois-class homeodomain iroquois homeobox 6 IRX6 34 AK125053 /// protein IRX-6 NM_024335 gene:ENSG00000159387 /// Homo sapiens cDNA FLJ43063 fis, clone BRTHA3008310, moderately similar to Mus musculus mRNA for iroquois homeobox protein 6. /// Homo sapiens iroquois homeobox 6 (IRX6), mRNA. 8155627 ENST00000316269 /// hypothetical protein hypothetical protein LOC100133036 /// 35 AK125850 /// gene:ENSG00000204831 /// LOC100133036 /// FAM95B1 AL833349 Homo sapiens cDNA FLJ43862 family with sequence fis, clone TESTI4007775. /// similarity 95, member Homo sapiens mRNA; cDNA B1 DKFZp686P0734 (from clone DKFZp686P0734). 7941608 GENSCAN00000024384 /// cdna:Genscan — — 36 ENST00000364863 chromosome:NCBI36:11:65945227:65956926:1 /// ncrna:snoRNA chromosome:NCBI36:11:65956813:65956949:1 gene:ENSG00000201733 7957495 ENST00000362375 ncrna:misc_RNA — — 37 chromosome:NCBI36:12:87348350:87348458:1 gene:ENSG00000199245 7961413 ENST00000318426 /// Putative uncharacterized protein chromosome 12 open C12orf36 38 BC101220 /// C12orf36 reading frame 36 NM_182558 gene:ENSG00000180861 /// Homo sapiens chromosome 12 open reading frame 36, mRNA (cDNA clone MGC:120138 IMAGE:40022214), complete cds. /// Homo sapiens chromosome 12 open reading frame 36 (C12orf36), mRNA. 8055941 ENST00000325926 /// Protein reprimo reprimo, TP53 RPRM 39 BC002908 /// gene:ENSG00000177519 /// dependent G2 arrest NM_019845 Homo sapiens reprimo, TP53 mediator candidate dependent G2 arrest mediator candidate, mRNA (cDNA clone MGC:11260 IMAGE:3942270), complete cds. /// Homo sapiens reprimo, TP53 dependent G2 arrest mediator candidate (RPRM), mRNA. 7962792 ENST00000310248 /// Olfactory receptor 10AD1 olfactory receptor, OR10AD1 40 NM_001004134 gene:ENSG00000172640 /// family 10, subfamily Homo sapiens olfactory receptor, AD, member 1 family 10, subfamily AD, member 1 (OR10AD1), mRNA. 7896756 ENST00000326734 /// similar to hCG1735895 — — 41 BC118644 gene:ENSG00000177757 /// Homo sapiens cDNA clone IMAGE:40030978. 8054939 ENST00000411186 ncrna:misc_RNA — — 42 chromosome:NCBI36:2:124343303:124343617:−1 gene:ENSG00000223118 7976057 ENST00000387641 ncrna:snoRNA_pseudogene — — 43 chromosome:NCBI36:14:81998185:81998284:1 gene:ENSG00000210376 7940002 ENST00000332362 /// Leucine rich repeat containing 55 leucine rich repeat LRRC55 44 BC136737 /// gene:ENSG00000183908 /// containing 55 NM_001005210 Homo sapiens leucine rich repeat containing 55, mRNA (cDNA clone MGC:168350 IMAGE:9020727), complete cds. /// Homo sapiens leucine rich repeat containing 55 (LRRC55), mRNA. 7979204 ENST00000395631 /// Isoform 1 of Fermitin family fermitin family FERMT2 45 ENST00000343279 /// homolog 2 homolog ENST00000341590 /// gene:ENSG00000073712 /// 2 (Drosophila) Z24725 /// fermitin family homolog 2 isoform NM_006832 /// 2 gene:ENSG00000073712 /// NM_001134999 /// Isoform 1 of Fermitin family NM_001135000 homolog 2 gene:ENSG00000073712 /// H. sapiens mitogen inducible gene mig-2, complete CDS. /// Homo sapiens fermitin family homolog 2 (Drosophila) (FERMT2), transcript variant 1, mRNA. /// Homo sapiens fermitin family homolog 2 (Drosophila) (FERMT2), transcript variant 2, mRNA. /// Homo sapiens fermitin family homolog 2 (Drosophila) (FERMT2), transcript variant 3, mRNA. 7981190 AL834311 Homo sapiens mRNA; cDNA hypothetical LOC100130815 46 DKFZp434O1614 (from clone LOC100130815 DKFZp434O1614). 8092686 ENST00000358241 /// Receptor-transporting protein 2 receptor RTP2 47 BC068081 /// gene:ENSG00000198471 /// (chemosensory) NM_001004312 Homo sapiens receptor transporter (chemosensory) transporter protein 2 protein 2, mRNA (cDNA clone MGC:78665 IMAGE:6212901), complete cds. /// Homo sapiens receptor (chemosensory) transporter protein 2 (RTP2), mRNA. 7961604 ENST00000266505 /// Isoform 1 of 1- phospholipase PLCZ1 48 ENST00000318197 /// phosphatidylinositol-4,5- C, zeta 1 AY035866 /// bisphosphate phosphodiesterase NM_033123 zeta-1 gene:ENSG00000139151 /// cDNA FLJ40236 fis, clone TESTI2023214, weakly similar to 1-PHOSPHATIDYLINOSITOL- 4,5-BISPHOSPHATE PHOSPHODIESTERASE DELTA 1 gene:ENSG00000139151 /// Homo sapiens testis-development related NYD-SP27 mRNA, complete cds. /// Homo sapiens phospholipase C, zeta 1 (PLCZ1), mRNA. 8026503 ENST00000397365 /// Putative uncharacterized protein hypothetical FLJ25328 49 ENST00000343017 /// FLJ25328 LOC148231 NR_024335 /// gene:ENSG00000167459 /// NR_024336 FLJ25328 protein (Fragment) gene:ENSG00000167459 /// Homo sapiens hypothetical LOC148231 (FLJ25328), transcript variant 1, non-coding RNA. /// Homo sapiens hypothetical LOC148231 (FLJ25328), transcript variant 2, non-coding RNA. 8084887 ENST00000411400 /// ncrna:misc_RNA — — 50 ENST00000385589 chromosome:NCBI36:3:195346160:195346450:1 gene:ENSG00000223332 /// ncrna:scRNA_pseudogene chromosome:NCBI36:3:195346161:195346454:1 gene:ENSG00000208324 7904417 GENSCAN00000027599 /// cdna:Genscan — — 51 ENST00000286193 chromosome:NCBI36:1:119806478:119858791:1 /// cdna:pseudogene chromosome:NCBI36:1:119811367:119817360:1 gene:ENSG00000187481 8112666 GENSCAN00000026551 /// cdna:Genscan — — 52 ENST00000329491 chromosome:NCBI36:5:74319149:74349847:−1 /// cdna:pseudogene chromosome:NCBI36:5:74321774:74322218:−1 gene:ENSG00000182383 8036969 ENST00000301141 /// Cytochrome P450 2A6 cytochrome P450, CYP2A13 /// 53 ENST00000301146 /// gene:ENSG00000213052 /// family 2, CYP2A7 /// ENST00000291764 /// Cytochrome P450 2A7 subfamily A, CYP2A6 ENST00000359667 /// gene:ENSG00000198077 /// polypeptide 13 /// ENST00000330436 /// cytochrome P450, family 2, cytochrome P450, AF209774 /// M33317 /// subfamily A, polypeptide 7 isoform family 2, M33318 /// 2 gene:ENSG00000198077 /// subfamily A, NM_000764 /// cdna:known polypeptide 7 /// NM_000762 /// chromosome:NCBI36:19:46107659:46108594:−1 cytochrome P450, NM_000766 /// gene:ENSG00000198251 /// family 2, NM_030589 Cytochrome P450 2A13 subfamily A, gene:ENSG00000197838 /// polypeptide 6 Homo sapiens cytochrome P450 2A13 (CYP2A13)mRNA, complete cds. /// Human cytochrome P450IIA4 (CYP2A4) mRNA, complete cds. /// Human cytochrome P450IIA3 (CYP2A3) mRNA, complete cds. /// Homo sapiens cytochrome P450, family 2, subfamily A, polypeptide 7 (CYP2A7), transcript variant 1, mRNA. /// Homo sapiens cytochrome P450, family 2, subfamily A, polypeptide 6 (CYP2A6), mRNA. /// Homo sapiens cytochrome P450, family 2, subfamily A, polypeptide 13 (CYP2A13), mRNA. /// Homo sapiens cytochrome P450, family 2, subfamily A, polypeptide 7 (CYP2A7), transcript variant 2, mRNA. 8176935 ENST00000303804 /// Isoform 1 of PTPN13-like protein, PTPN13-like, PRY /// 54 ENST00000303728 /// Y-linked Y-linked /// PRY2 ENST00000343584 /// gene:ENSG00000169807 /// PTPN13-like, Y- ENST00000303593 /// Isoform 1 of PTPN13-like protein, linked 2 ENST00000306589 /// Y-linked ENST00000338673 /// gene:ENSG00000169789 /// AF000988 /// Isoform 1 of PTPN13-like protein, NM_001002758 /// Y-linked NM_004676 gene:ENSG00000169763 /// Isoform 2 of PTPN13-like protein, Y-linked gene:ENSG00000169763 /// Isoform 1 of PTPN13-like protein, Y-linked gene:ENSG00000172283 /// Isoform 2 of PTPN13-like protein, Y-linked gene:ENSG00000172283 /// Homo sapiens testis-specific PTP-BL Related Y protein (PRY) mRNA, complete cds. /// Homo sapiens PTPN13-like, Y-linked 2 (PRY2), mRNA. /// Homo sapiens PTPN13-like, Y-linked (PRY), mRNA. 8044124 ENST00000258456 /// High-affinity lysophosphatidic acid G protein-coupled GPR45 55 U92642 /// receptor homolog receptor 45 NM_007227 gene:ENSG00000135973 /// Human high-affinity lysophosphatidic acid receptor homolog mRNA, complete cds. /// Homo sapiens G protein-coupled receptor 45 (GPR45), mRNA. 8070930 — — — — 56 8015037 AK095738 Homo sapiens cDNA FLJ38419 — — 57 fis, clone FEBRA2009846. 7969482 ENST00000377462 similar to hCG30005 — — 58 gene:ENSG00000102794 8173524 ENST00000373619 /// Cbp/p300-interacting Cbp/p300-interacting CITED1 59 ENST00000246139 /// transactivator 1 transactivator, with U65092 /// gene:ENSG00000125931 /// Glu/Asp-rich carboxy- NM_004143 Cbp/p300-interacting terminal domain, 1 transactivator 1 gene:ENSG00000125931 /// Human melanocyte-specific gene 1 (msg1) mRNA, complete cds. /// Homo sapiens Cbp/p300- interacting transactivator, with Glu/Asp-rich carboxy-terminal domain, 1 (CITED1), mRNA. 8143747 ENST00000385536 ncrna:tRNA_pseudogene — — 60 chromosome:NCBI36:7:148966447:148966513:−1 gene:ENSG00000208271 8080781 ENST00000356151 /// Isoform 1 of PX domain- PX domain PXK 61 ENST00000302779 /// containing protein kinase-like containing ENST00000383715 /// protein gene:ENSG00000168297 /// serine/threonine ENST00000383716 /// Isoform 4 of PX domain- kinase AY274811 /// containing protein kinase-like NM_017771 protein gene:ENSG00000168297 /// Isoform 2 of PX domain- containing protein kinase-like protein gene:ENSG00000168297 /// Isoform 6 of PX domain- containing protein kinase-like protein gene:ENSG00000168297 /// Homo sapiens PX serine/threonine kinase mRNA, complete cds. /// Homo sapiens PX domain containing serine/threonine kinase (PXK), mRNA. 8111118 ENST00000365399 ncrna:snoRNA — — 62 chromosome:NCBI36:5:15163895:15164029:−1 gene:ENSG00000202269 7934883 ENST00000387878 ncrna:scRNA_pseudogene — — 63 chromosome:NCBI36:10:89582555:89582827:−1 gene:ENSG00000210613 8010113 ENST00000374998 /// Isoform 3 of Alpha-1,6- mannosyl (alpha-1,6-)- MGAT5B 64 ENST00000374999 /// mannosylglycoprotein 6-beta-N- glycoprotein beta-1,6- ENST00000301618 /// acetylglucosaminyltransferase B N-acetyl- AB114297 /// gene:ENSG00000167889 /// glucosaminyl- NM_144677 /// Isoform 1 of Alpha-1,6- transferase, NM_198955 mannosylglycoprotein 6-beta-N- isozyme B acetylglucosaminyltransferase B gene:ENSG00000167889 /// beta(1,6)-N- acetylglucosaminyltransferase V isoform 1 gene:ENSG00000167889 /// Homo sapiens hGnTVb mRNA for UDP-N-acetylglucosamine: alpha1,6-D-mannoside beta1,6- N-acetylglucosaminyltransferase b, complete cds. /// Homo sapiens mannosyl (alpha-1,6-)- glycoprotein beta-1,6-N-acetyl- glucosaminyltransferase, isozyme B (MGAT5B), transcript variant 1, mRNA. /// Homo sapiens mannosyl (alpha-1,6-)- glycoprotein beta-1,6-N-acetyl- glucosaminyltransferase, isozyme B (MGAT5B), transcript variant 2, mRNA. 8175524 ENST00000370540 /// Uncharacterized protein hypothetical RP11- 65 NM_001013403 LOC347487 LOC347487 35F15.2 gene:ENSG00000203933 /// Homo sapiens hypothetical LOC347487 (LOC347487), mRNA. 7997740 ENST00000268607 /// Microtubule-associated proteins microtubule- MAP1LC3B 66 BC045759 /// 1A/1B light chain 3B associated NM_022818 gene:ENSG00000140941 /// protein 1 light Homo sapiens microtubule- chain 3 beta associated protein 1 light chain 3 beta, mRNA (cDNA clone MGC:48651 IMAGE:4828857), complete cds. /// Homo sapiens microtubule-associated protein 1 light chain 3 beta (MAP1LC3B), mRNA. 8177395 ENST00000303804 /// Isoform 1 of PTPN13-like protein, PTPN13-like, PRY /// 67 ENST00000303728 /// Y-linked Y-linked /// PRY2 ENST00000343584 /// gene:ENSG00000169807 /// PTPN13-like, Y- ENST00000303593 /// Isoform 1 of PTPN13-like protein, linked 2 ENST00000306589 /// Y-linked ENST00000338673 /// gene:ENSG00000169789 /// AF000988 /// Isoform 1 of PTPN13-like protein, NM_001002758 /// Y-linked NM_004676 gene:ENSG00000169763 /// Isoform 2 of PTPN13-like protein, Y-linked gene:ENSG00000169763 /// Isoform 1 of PTPN13-like protein, Y-linked gene:ENSG00000172283 /// Isoform 2 of PTPN13-like protein, Y-linked gene:ENSG00000172283 /// Homo sapiens testis-specific PTP-BL Related Y protein (PRY) mRNA, complete cds. /// Homo sapiens PTPN13-like, Y-linked 2 (PRY2), mRNA. /// Homo sapiens PTPN13-like, Y-linked (PRY), mRNA. 7929478 ENST00000371321 /// Cytochrome P450 2C19 cytochrome P450, CYP2C19 68 M61854 /// gene:ENSG00000165841 /// family 2, NM_000769 Human cytochrome P4502C19 subfamily C, (CYP2C19) mRNA, clone 11a. /// polypeptide 19 Homo sapiens cytochrome P450, family 2, subfamily C, polypeptide 19 (CYP2C19), mRNA. 8102781 GENSCAN00000015129 /// cdna:Genscan similar to LOC646187 69 XR_016991 chromosome:NCBI36:4:1328637 hCG2026352 36:133029672:−1 /// PREDICTED: Homo sapiens similar to hCG2026352 (LOC646187), mRNA. 8155026 ENST00000329395 /// Putative FetA-like protein ATPase, Class LOC158381 70 BC031276 /// gene:ENSG00000179766 /// I, type NR_003581 /// Homo sapiens ATPase, Class I, 8B family NR_003582 type 8B family pseudogene, pseudogene mRNA (cDNA clone MGC:39768 IMAGE:5295199), complete cds. /// Homo sapiens ATPase, Class I, type 8B family pseudogene (LOC158381), transcript variant 1, non-coding RNA. /// Homo sapiens ATPase, Class I, type 8B family pseudogene (LOC158381), transcript variant 2, non-coding RNA. 8146914 ENST00000276603 /// Isoform 1 of Telomeric repeat- telomeric repeat TERF1 71 ENST00000276602 /// binding factor 1 binding factor U74382 /// gene:ENSG00000147601 /// (NIMA- NM_003218 /// Isoform 2 of Telomeric repeat- interacting) 1 NM_017489 binding factor 1 gene:ENSG00000147601 /// Human telomeric repeat DNA- binding protein (PIN2) mRNA, complete cds. /// Homo sapiens telomeric repeat binding factor (NIMA-interacting) 1 (TERF1), transcript variant 2, mRNA. /// Homo sapiens telomeric repeat binding factor (NIMA-interacting) 1 (TERF1), transcript variant 1, mRNA. 8169022 ENST00000372661 /// WW domain-binding protein 5 WW domain binding WBP5 72 ENST00000372656 /// gene:ENSG00000185222 /// WW protein 5 BC023544 /// domain-binding protein 5 NM_001006612 /// gene:ENSG00000185222 /// NM_016303 /// Homo sapiens WW domain NM_001006614 /// binding protein 5, mRNA (cDNA NM_001006613 clone MGC:15211 IMAGE:4122244), complete cds. /// Homo sapiens WW domain binding protein 5 (WBP5), transcript variant 2, mRNA. /// Homo sapiens WW domain binding protein 5 (WBP5), transcript variant 1, mRNA. /// Homo sapiens WW domain binding protein 5 (WBP5), transcript variant 4, mRNA. /// Homo sapiens WW domain binding protein 5 (WBP5), transcript variant 3, mRNA. 7944952 ENST00000340456 /// cdna:known — — 73 AK128036 chromosome:NCBI36:11:124488267:124501887:1 gene:ENSG00000187686 /// Homo sapiens cDNA FLJ46155 fis, clone TESTI4001517. 8108199 BC025747 Homo sapiens similar to CG4995 similar to LOC153328 74 gene product, mRNA (cDNA clone CG4995 gene MGC:35539 IMAGE:5200129), product complete cds. 8040618 ENST00000264710 /// Ras-related protein Rab-10 RAB10, member RAS RAB10 75 AK023223 /// gene:ENSG00000084733 /// oncogene family NM_016131 Homo sapiens cDNA FLJ13161 fis, clone NT2RP3003589, highly similar to Homo sapiens ras- related GTP-binding protein mRNA. /// Homo sapiens RAB10, member RAS oncogene family (RAB10), mRNA. 7981326 hsa-mir-1247 /// MI0006382 Homo sapiens miR- DIO3 opposite strand DIO3OS 76 hsa-mir-1247 /// 1247 stem-loop /// MI0006382 (non-protein coding) AF305836 /// Homo sapiens miR-1247 stem- AF469206 /// loop /// Homo sapiens uterine- BC065701 derived 14 kDa protein mRNA, complete cds. /// Homo sapiens clone 8 DIO3AS mRNA, partial sequence; alternatively spliced. /// Homo sapiens deiodinase, iodothyronine, type /// opposite strand, mRNA (cDNA clone IMAGE:6205020). 8057004 ENST00000358450 /// Isoform 2 of Dual 3′,5′-cyclic-AMP phosphodiesterase PDE11A 77 ENST00000286063 /// and -GMP phosphodiesterase 11A ENST00000389683 /// 11A gene:ENSG00000128655 /// ENST00000409504 /// Isoform 1 of Dual 3′,5′-cyclic-AMP AB036704 /// and -GMP phosphodiesterase NM_001077358 /// 11A gene:ENSG00000128655 /// NM_016953 /// Isoform 4 of Dual 3′,5′-cyclic-AMP NM_001077196 /// and -GMP phosphodiesterase NM_001077197 11A gene:ENSG00000128655 /// cdna:known chromosome:NCBI36:2:178202021:178495768:−1 gene:ENSG00000128655 /// Homo sapiens HSPDE11A mRNA for phosphodiesterase 11A, complete cds. /// Homo sapiens phosphodiesterase 11A (PDE11A), transcript variant 2, mRNA. /// Homo sapiens phosphodiesterase 11A (PDE11A), transcript variant 4, mRNA. /// Homo sapiens phosphodiesterase 11A (PDE11A), transcript variant 1, mRNA. /// Homo sapiens phosphodiesterase 11A (PDE11A), transcript variant 3, mRNA. 8108370 ENST00000239938 /// Early growth response protein 1 early growth EGR1 78 M62829 /// gene:ENSG00000120738 /// response 1 NM_001964 Human transcription factor ETR103 mRNA, complete cds. /// Homo sapiens early growth response 1 (EGR1), mRNA. 8159078 ENST00000316948 /// Isoform 1 of Transmembrane chromosome 9 open C9orf7 79 ENST00000291722 /// protein C9orf7 reading frame 7 AK074852 /// gene:ENSG00000160325 /// NM_017586 /// Isoform 2 of Transmembrane NM_001135775 protein C9orf7 gene:ENSG00000160325 /// Homo sapiens cDNA FLJ90371 fis, clone NT2RP2004524. /// Homo sapiens chromosome 9 open reading frame 7 (C9orf7), transcript variant 1, mRNA. /// Homo sapiens chromosome 9 open reading frame 7 (C9orf7), transcript variant 2, mRNA. 8035956 ENST00000365097 ncrna:misc_RNA — — 80 chromosome:NCBI36:19:38045533:38045838:−1 gene:ENSG00000201967 7982868 ENST00000249798 /// Cation transport regulator-like ChaC, cation CHAC1 81 ENST00000397434 /// protein 1 transport BC019625 /// gene:ENSG00000128965 /// regulator NM_024111 Cation transport protein-like homolog 1 protein gene:ENSG00000128965 /// (E. coli) Homo sapiens ChaC, cation transport regulator homolog 1 (E. coli), mRNA (cDNA clone MGC:24988 IMAGE:4473135), complete cds. /// Homo sapiens ChaC, cation transport regulator homolog 1 (E. coli) (CHAC1), mRNA. 8084878 ENST00000384640 ncrna:misc_RNA — — 82 chromosome:NCBI36:3:194824672:194824784:1 gene:ENSG00000207370 7969959 ENST00000375936 /// Isoform 1 of D-amino acid oxidase D-amino acid DAOA 83 ENST00000329625 /// activator oxidase DQ343761 /// gene:ENSG00000182346 /// activator NM_172370 Putative uncharacterized protein DAOA gene:ENSG00000182346 /// Homo sapiens schizophrenia and bipolar disorder associated protein G72 form A mRNA, complete cds, alternatively spliced. /// Homo sapiens D-amino acid oxidase activator (DAOA), mRNA. 8137330 ENST00000356058 /// cDNA FLJ46250 fis, clone — — 84 AK128129 TESTI4021569, moderately similar to ATP-binding cassette, sub-family B, member 8, mitochondrial gene:ENSG00000197150 /// Homo sapiens cDNA FLJ46250 fis, clone TESTI4021569, moderately similar to ATP-binding cassette, sub-family B, member 8, mitochondrial precursor. 8160383 ENST00000259555 /// Interferon alpha-14 interferon, IFNA7 /// 85 ENST00000380220 /// gene:ENSG00000186809 /// alpha 7 /// IFNA14 ENST00000239347 /// Interferon alpha-14 interferon, M34913 /// gene:ENSG00000186809 /// alpha 14 V00542 /// Interferon alpha-7 NM_021057 /// gene:ENSG00000214042 /// NM_002172 Human interferon-alpha-J1 (IFN- alpha-J1) mRNA, complete cds. /// Messenger RNA for human leukocyte (alpha) interferon. /// Homo sapiens interferon, alpha 7 (IFNA7), mRNA. /// Homo sapiens interferon, alpha 14 (IFNA14), mRNA. 8071168 ENST00000342005 /// cDNA FLJ60978, weakly similar to POM121 membrane POM121L1 /// 86 ENST00000329949 /// Nuclear envelope pore membrane glycoprotein- DKFZp434K191 /// ENST00000402027 /// protein POM 121 like 1 (rat) /// DKFZP434P211 ENST00000248992 /// gene:ENSG00000182356 /// POM121 membrane AK292412 /// Putative uncharacterized protein glycoprotein- AK302597 /// ENSP00000383394 like 1 AY358961 /// gene:ENSG00000217261 /// pseudogene /// NR_003714 POM121-like 1 protein POM121 membrane gene:ENSG00000183169 /// glycoprotein- POM121-like like 1 gene:ENSG00000128262 /// pseudogene Homo sapiens cDNA FLJ76724 complete cds. /// Homo sapiens cDNA FLJ60978 complete cds, weakly similar to Nuclear envelope pore membrane protein POM 121. /// Homo sapiens clone DNA107786 POM121-like (UNQ2565) mRNA, complete cds. /// Homo sapiens POM121-like protein (DKFZP434P211), non- coding RNA. 8067965 AF304443 Homo sapiens B lymphocyte — — 87 activation-related protein BC- 2048 mRNA, complete cds. 8175589 ENST00000364415 ncrna:rRNA — — 88 chromosome:NCBI36:X:146897312:146897427:−1 gene:ENSG00000201285 7935990 ENST00000406432 /// Isoform 1 of PH and SEC7 pleckstrin and Sec7 PSD 89 ENST00000020673 /// domain-containing protein 1 domain containing BC142643 /// gene:ENSG00000059915 /// NM_002779 Isoform 1 of PH and SEC7 domain-containing protein 1 gene:ENSG00000059915 /// Homo sapiens pleckstrin and Sec7 domain containing, mRNA (cDNA clone MGC:164849 ENST00000388445 gene:ENSG00000211166 /// ncrna:scRNA_pseudogene chromosome:NCBI36:11:112986610:112986679:1 gene:ENSG00000211180 8135099 ENST00000397927 /// Isoform 1 of Collagen alpha- EMI domain EMID2 96 ENST00000313669 /// 1(XXVI) chain containing 2 BC110393 /// gene:ENSG00000160963 /// NM_133457 Isoform 2 of Collagen alpha- 1(XXVI) chain gene:ENSG00000160963 /// Homo sapiens EMI domain containing 2, mRNA (cDNA clone MGC:117329 IMAGE:5195867), complete cds. /// Homo sapiens EMI domain containing 2 (EMID2), mRNA. 7978801 ENST00000399232 /// MAM domain-containing MAM domain MDGA2 97 ENST00000399222 /// glycosylphosphatidylinositol containing ENST00000357362 /// anchor protein 2 glycosyl- AY369208 /// gene:ENSG00000139915 /// phosphatidylinositol NM_182830 /// MAM domain containing 1 isoform anchor 2 NM_001113498 2 gene:ENSG00000139915 /// MAM domain containing 1 isoform 2 gene:ENSG00000139915 /// Homo sapiens MAM domain- containing glycosylphosphatidylinositol anchor 2 (MDGA2) mRNA, complete cds. /// Homo sapiens MAM domain containing glycosylphosphatidylinositol anchor 2 (MDGA2), transcript variant 2, mRNA. /// Homo sapiens MAM domain containing glycosylphosphatidylinositol anchor 2 (MDGA2), transcript variant 1, mRNA. 7971661 hsa-mir-15a /// MI0000069 Homo sapiens miR- — — 98 hsa-mir-15a 15a stem-loop /// MI0000069 Homo sapiens miR-15a stem-loop 8136709 ENST00000397504 /// Putative maltase-glucoamylase- maltase-glucoamylase- LOC93432 99 BC111973 /// like protein LOC93432 like pseudogene NR_003715 gene:ENSG00000214088 /// Homo sapiens maltase- glucoamylase-like pseudogene, mRNA (cDNA clone IMAGE:8327441), complete cds. /// Homo sapiens maltase- glucoamylase-like pseudogene (LOC93432), non-coding RNA. 8139367 ENST00000289547 /// Niemann-Pick C1-like protein 1 NPC1 (Niemann-Pick NPC1L1 100 ENST00000381160 /// isoform 1 disease, type C1, ENST00000381159 /// gene:ENSG00000015520 /// gene)-like 1 AF192522 /// Isoform 2 of Niemann-Pick C1-like NM_013389 /// protein 1 NM_001101648 gene:ENSG00000015520 /// Isoform 3 of Niemann-Pick C1-like protein 1 gene:ENSG00000015520 /// Homo sapiens Niemann-Pick C1- like protein 1 (NPC1L1) mRNA, complete cds. /// Homo sapiens NPC1 (Niemann-Pick disease, type C1, gene)-like 1 (NPC1L1), transcript variant 1, mRNA. /// Homo sapiens NPC1 (Niemann- Pick disease, type C1, gene)-like 1 (NPC1L1), transcript variant 2, mRNA. 8055952 ENST00000339562 /// Nuclear receptor subfamily 4 nuclear receptor NR4A2 101 ENST00000409572 /// group A member 2 subfamily 4, ENST00000409108 /// gene:ENSG00000153234 /// group A, BC009288 /// cdna:known member 2 NM_006186 chromosome:NCBI36:2:156889856:156907106:−1 gene:ENSG00000153234 /// cdna:known chromosome:NCBI36:2:156890502:156895465:−1 gene:ENSG00000153234 /// Homo sapiens nuclear receptor subfamily 4, group A, member 2, mRNA (cDNA clone MGC:14354 IMAGE:4298967), complete cds. /// Homo sapiens nuclear receptor subfamily 4, group A, member 2 (NR4A2), mRNA. 7942809 BC008359 Homo sapiens cDNA clone — — 102 IMAGE:3606756. 8120151 ENST00000244799 /// Opsin-5 opsin 5 OPN5 103 ENST00000393699 /// gene:ENSG00000124818 /// ENST00000371211 /// Opsin-5 ENST00000393696 /// gene:ENSG00000124818 /// BX647224 /// opsin 5 isoform 2 NM_181744 /// gene:ENSG00000124818 /// NM_001030051 opsin 5 isoform 2 gene:ENSG00000124818 /// Homo sapiens mRNA; cDNA DKFZp686D0636 (from clone DKFZp686D0636). /// Homo sapiens opsin 5 (OPN5), transcript variant 1, mRNA. /// Homo sapiens opsin 5 (OPN5), transcript variant 2, mRNA. 8143710 ENST00000385543 ncrna:tRNA_pseudogene — — 104 chromosome:NCBI36:7:148684678:148684753:−1 gene:ENSG00000208278 8091676 ENST00000385921 /// ncrna:rRNA_pseudogene — — 105 ENST00000410743 chromosome:NCBI36:3:158374399:158374523:−1 gene:ENSG00000208656 /// ncrna:rRNA chromosome:NCBI36:3:158374401:158374523:−1 gene:ENSG00000222675 8083409 ENST00000356517 /// Isoform 1 of Arylacetamide arylacetamide AADACL2 106 BC065724 /// deacetylase-like 2 deacetylase-like 2 NM_207365 gene:ENSG00000197953 /// Homo sapiens arylacetamide deacetylase-like 2, mRNA (cDNA clone MGC:72001 IMAGE:6663150), complete cds. /// Homo sapiens arylacetamide deacetylase-like 2 (AADACL2), mRNA. 7955119 ENST00000380491 /// Isoform 2 of Uncharacterized chromosome 12 open C12orf54 107 ENST00000314014 /// protein C12orf54 reading frame 54 BC031670 gene:ENSG00000177627 /// Isoform 1 of Uncharacterized protein C12orf54 gene:ENSG00000177627 /// Homo sapiens chromosome 12 open reading frame 54, mRNA (cDNA clone MGC:35033 IMAGE:5165130), complete cds. 8005757 ENST00000387268 ncrna:Mt_tRNA_pseudogene — — 108 chromosome:NCBI36:17:21952378:21952445:1 gene:ENSG00000210003 8129313 ENST00000364509 ncrna:snRNA — — 109 chromosome:NCBI36:6:121905331:121905471:−1 gene:ENSG00000201379 8176806 ENST00000303804 /// Isoform 1 of PTPN13-like protein, PTPN13-like, PRY /// 110 ENST00000341740 /// Y-linked Y-linked /// PRY2 ENST00000338793 /// gene:ENSG00000169807 /// PTPN13-like, Y- ENST00000303728 /// Isoform 2 of PTPN13-like protein, linked 2 ENST00000343584 /// Y-linked ENST00000303593 /// gene:ENSG00000169807 /// ENST00000306589 /// Isoform 2 of PTPN13-like protein, ENST00000338673 /// Y-linked AF517635 /// gene:ENSG00000169789 /// NM_001002758 /// Isoform 1 of PTPN13-like protein, NM_004676 Y-linked gene:ENSG00000169789 /// Isoform 1 of PTPN13-like protein, Y-linked gene:ENSG00000169763 /// Isoform 2 of PTPN13-like protein, Y-linked gene:ENSG00000169763 /// Isoform 1 of PTPN13-like protein, Y-linked gene:ENSG00000172283 /// Isoform 2 of PTPN13-like protein, Y-linked gene:ENSG00000172283 /// Homo sapiens testis-specific PTP-BL related Y protein mRNA, complete cds, alternatively spliced. /// Homo sapiens PTPN13-like, Y-linked 2 (PRY2), mRNA. /// Homo sapiens PTPN13-like, Y-linked (PRY), mRNA. 8020842 NR_003558 Homo sapiens WW domain WW domain binding WBP11P1 111 binding protein 11 pseudogene 1 protein 11 pseudogene (WBP11P1), non-coding RNA. 1 8028389 ENST00000396877 /// sprouty-related, EVH1 domain sprouty-related, EVH1 SPRED3 112 ENST00000338502 /// containing 3 isoform b domain containing 3 DQ323928 /// gene:ENSG00000188766 /// NM_001039616 /// Sprouty-related, EVH1 domain- NM_001042522 containing protein 3 gene:ENSG00000188766 /// Homo sapiens Spred3 mRNA, complete cds. /// Homo sapiens sprouty-related, EVH1 domain containing 3 (SPRED3), transcript variant 2, mRNA. /// Homo sapiens sprouty-related, EVH1 domain containing 3 (SPRED3), transcript variant 1, mRNA. 8007828 ENST00000344290 /// Isoform Tau-G of Microtubule- microtubule-associated MAPT 113 ENST00000262410 /// associated protein tau protein tau ENST00000351559 /// gene:ENSG00000186868 /// ENST00000340799 /// Isoform PNS-tau of Microtubule- ENST00000354326 /// associated protein tau ENST00000347967 /// gene:ENSG00000186868 /// ENST00000334239 /// Isoform Tau-F of Microtubule- BC114948 /// associated protein tau NM_001123067 /// gene:ENSG00000186868 /// NM_016835 /// Isoform Tau-E of Microtubule- NM_016834 /// associated protein tau NM_016841 /// gene:ENSG00000186868 /// NM_005910 /// Isoform Tau-C of Microtubule- NM_001123066 associated protein tau gene:ENSG00000186868 /// Isoform Tau-D of Microtubule- associated protein tau gene:ENSG00000186868 /// Isoform Tau-A of Microtubule- associated protein tau gene:ENSG00000186868 /// Homo sapiens microtubule- associated protein tau, mRNA (cDNA clone IMAGE:40007445), complete cds. /// Homo sapiens microtubule-associated protein tau (MAPT), transcript variant 5, mRNA. /// Homo sapiens microtubule-associated protein tau (MAPT), transcript variant 1, mRNA. /// Homo sapiens microtubule-associated protein tau (MAPT), transcript variant 3, mRNA. /// Homo sapiens microtubule-associated protein tau (MAPT), transcript variant 4, mRNA. /// Homo sapiens microtubule-associated protein tau (MAPT), transcript variant 2, mRNA. /// Homo sapiens microtubule-associated protein tau (MAPT), transcript variant 6, mRNA. 8058145 — — — — 114 8055348 ENST00000410136 ncrna:misc_RNA — — 115 chromosome:NCBI36:2:133865128:133865440:−1 gene:ENSG00000222068 7951165 ENST00000263463 /// Progesterone receptor, isoform progesterone receptor PGR 116 ENST00000325455 /// CRA_c gene:ENSG00000082175 /// X51730 /// Isoform B of Progesterone NM_000926 receptor gene:ENSG00000082175 /// Human mRNA and promoter DNA for progesterone receptor. /// Homo sapiens progesterone receptor (PGR), mRNA. 8141922 ENST00000339444 /// Isoform 2 of Prestin solute carrier SLC26A5 117 ENST00000393735 /// gene:ENSG00000170615 /// family 26, ENST00000356767 /// Isoform 3 of Prestin member 5 (prestin) ENST00000393730 /// gene:ENSG00000170615 /// ENST00000354356 /// Isoform 4 of Prestin ENST00000306312 /// gene:ENSG00000170615 /// ENST00000393732 /// SLC26A5 protein ENST00000393729 /// gene:ENSG00000170615 /// ENST00000393723 /// Prestin gene:ENSG00000170615 /// ENST00000393727 /// Isoform 1 of Prestin ENST00000393722 /// gene:ENSG00000170615 /// AF523354 /// SLC26A5 protein NM_206884 /// gene:ENSG00000170615 /// NM_198999 /// SLC26A5 protein NM_206883 /// gene:ENSG00000170615 /// NM_206885 Prestin isoform SLC26A5e gene:ENSG00000170615 /// Prestin gene:ENSG00000170615 /// Putative uncharacterized protein SLC26A5 gene:ENSG00000170615 /// Homo sapiens prestin (PRES) mRNA, complete cds. /// Homo sapiens solute carrier family 26, member 5 (prestin) (SLC26A5), transcript variant c, mRNA. /// Homo sapiens solute carrier family 26, member 5 (prestin) (SLC26A5), transcript variant a, mRNA. /// Homo sapiens solute carrier family 26, member 5 (prestin) (SLC26A5), transcript variant b, mRNA. /// Homo sapiens solute carrier family 26, member 5 (prestin) (SLC26A5), transcript variant d, mRNA. 7934731 ENST00000318965 /// cdna:pseudogene similar to LOC642538 /// 118 ENST00000372288 /// chromosome:NCBI36:10:32840249:32840671:−1 hCG1791993 /// LOC642521 ENST00000372287 /// gene:ENSG00000181993 /// similar to ENST00000405868 /// cdna:pseudogene hCG1791993 XM_001723653 /// chromosome:NCBI36:10:81774473:81774898:−1 XM_926017 gene:ENSG00000204042 /// cdna:pseudogene chromosome:NCBI36:10:81781704:81782129:−1 gene:ENSG00000204041 /// cdna:pseudogene chromosome:NCBI36:10:81790363:81790779:−1 gene:ENSG00000217279 /// PREDICTED:Homo sapiens similar to hCG1791993 (LOC642538), mRNA. /// PREDICTED:Homo sapiens similar to hCG1791993 (LOC642521), mRNA. 7921449 ENST00000255030 /// Isoform 1 of C-reactive protein C-reactive protein, CRP 119 ENST00000368112 /// gene:ENSG00000132693 /// pentraxin-related ENST00000368111 /// Isoform 2 of C-reactive protein ENST00000368110 /// gene:ENSG00000132693 /// C- ENST00000343919 /// reactive protein, pentraxin-related AK289443 /// gene:ENSG00000132693 /// C- NM_000567 reactive protein, pentraxin-related gene:ENSG00000132693 /// C- reactive protein, pentraxin-related gene:ENSG00000132693 /// Homo sapiens cDNA FLJ78115 complete cds, highly similar to Homo sapiens C-reactive protein, pentraxin-related (CRP), mRNA. /// Homo sapiens C-reactive protein, pentraxin-related (CRP), mRNA. 8157818 ENST00000373574 /// WD repeat-containing protein 38 WD repeat domain 38 WDR38 120 BC127949 /// gene:ENSG00000136918 /// NM_001045476 Homo sapiens WD repeat domain 38, mRNA (cDNA clone MGC:158102 IMAGE:40132852), complete cds. /// Homo sapiens WD repeat domain 38 (WDR38), mRNA. 7920264 ENST00000359215 /// S100 calcium binding protein A5 S100 calcium binding S100A5 121 ENST00000368718 /// gene:ENSG00000196420 /// protein A5 ENST00000368717 /// S100 calcium binding protein A5 BC093955 /// gene:ENSG00000196420 /// NM_002962 S100 calcium binding protein A5 gene:ENSG00000196420 /// Homo sapiens S100 calcium binding protein A5, mRNA (cDNA clone MGC:120990 IMAGE:7939800), complete cds. /// Homo sapiens S100 calcium binding protein A5 (S100A5), mRNA. 8099362 ENST00000411154 /// ncrna:rRNA — — 122 ENST00000387157 chromosome:NCBI36:4:9726478:9726606:−1 gene:ENSG00000223086 /// ncrna:rRNA_pseudogene chromosome:NCBI36:4:9726517:9726606:−1 gene:ENSG00000209892 8095412 ENST00000381066 /// Casein gene:ENSG00000126545 /// casein alpha s1 CSN1S1 123 ENST00000354865 /// Isoform 3 of Alpha-S1-casein ENST00000246891 /// gene:ENSG00000126545 /// BC128227 /// Isoform 1 of Alpha-S1-casein NM_001025104 /// gene:ENSG00000126545 /// NM_001890 Homo sapiens casein alpha s1, mRNA (cDNA clone MGC:149367 IMAGE:40114618), complete cds. /// Homo sapiens casein alpha s1 (CSN1S1), transcript variant 2, mRNA. /// Homo sapiens casein alpha s1 (CSN1S1), transcript variant 1, mRNA. 8010622 ENST00000384294 ncrna:misc_RNA — — 124 chromosome:NCBI36:17:77150953:77151065:1 gene:ENSG00000207021 8107421 ENST00000316788 /// AP-3 complex subunit sigma-1 adaptor-related protein AP3S1 125 BC012614 /// gene:ENSG00000177879 /// complex 3, sigma 1 NM_001284 Homo sapiens adaptor-related subunit protein complex 3, sigma 1 subunit, mRNA (cDNA clone IMAGE:4281620). /// Homo sapiens adaptor-related protein complex 3, sigma 1 subunit (AP3S1), mRNA. 8126750 ENST00000230565 /// Ectonucleotide ectonucleotide ENPP5 126 ENST00000371383 /// pyrophosphatase/phosphodiesterase pyrophosphatase/ BX647968 /// family member 5 phosphodiesterase 5 NM_021572 gene:ENSG00000112796 /// (putative function) Ectonucleotide pyrophosphatase/phosphodiesterase family member 5 gene:ENSG00000112796 /// Homo sapiens mRNA; cDNA DKFZp686E1552 (from clone DKFZp686E1552). /// Homo sapiens ectonucleotide pyrophosphatase/phosphodiesterase 5 (putative function) (ENPP5), mRNA. 8027770 ENST00000270310 /// FXYD domain-containing ion FXYD domain FXYD7 127 BC018619 /// transport regulator 7 containing ion NM_022006 gene:ENSG00000126258 /// transport regulator 7 Homo sapiens FXYD domain containing ion transport regulator 7, mRNA (cDNA clone MGC:31815 IMAGE:3626060), complete cds. /// Homo sapiens FXYD domain containing ion transport regulator 7 (FXYD7), mRNA. 8088491 ENST00000383710 /// Isoform 1 of Calcium-dependent Ca++-dependent CADPS 128 ENST00000383709 /// secretion activator 1 secretion activator ENST00000283269 /// gene:ENSG00000163618 /// ENST00000357948 /// Isoform 4 of Calcium-dependent ENST00000360097 /// secretion activator 1 AF458662 /// gene:ENSG00000163618 /// NM_183393 /// Isoform 3 of Calcium-dependent NM_003716 /// secretion activator 1 NM_183394 gene:ENSG00000163618 /// Isoform 2 of Calcium-dependent secretion activator 1 gene:ENSG00000163618 /// Isoform 5 of Calcium-dependent secretion activator 1 gene:ENSG00000163618 /// Homo sapiens calcium- dependent activator protein for secretion protein mRNA, complete cds. /// Homo sapiens Ca++-dependent secretion activator (CADPS), transcript variant 3, mRNA. /// Homo sapiens Ca++-dependent secretion activator (CADPS), transcript variant 1, mRNA. /// Homo sapiens Ca++-dependent secretion activator (CADPS), transcript variant 2, mRNA. 8161192 ENST00000377877 /// Ring finger protein 38 ring finger protein 38 RNF38 129 ENST00000357058 /// gene:ENSG00000137075 /// ring ENST00000350199 /// finger protein 38 isoform 2 ENST00000377885 /// gene:ENSG00000137075 /// ring ENST00000377876 /// finger protein 38 isoform 2 ENST00000353739 /// gene:ENSG00000137075 /// ring ENST00000259605 /// finger protein 38 isoform 2 ENST00000377870 /// gene:ENSG00000137075 /// ring AF394047 /// finger protein 38 isoform 2 NM_022781 /// gene:ENSG00000137075 /// NM_194328 /// Isoform 2 of RING finger protein NM_194329 /// 38 gene:ENSG00000137075 /// NM_194330 /// Isoform 1 of RING finger protein NM_194332 38 gene:ENSG00000137075 /// Ring finger protein 38 gene:ENSG00000137075 /// Homo sapiens RING finger protein 38 (RNF38) mRNA, complete cds. /// Homo sapiens ring finger protein 38 (RNF38), transcript variant 1, mRNA. /// Homo sapiens ring finger protein 38 (RNF38), transcript variant 2, mRNA. /// Homo sapiens ring finger protein 38 (RNF38), transcript variant 3, mRNA. /// Homo sapiens ring finger protein 38 (RNF38), transcript variant 5, mRNA. /// Homo sapiens ring finger protein 38 (RNF38), transcript variant 6, mRNA. 8124634 ENST00000404200 /// cdna:pseudogene — — 130 ENST00000401594 /// chromosome:NCBI36:c6 COX:29249580:29250516:−1 ENST00000366307 gene:ENSG00000219452 /// cdna:pseudogene chromosome:NCBI36:c6 QBL:29248513:29249449:−1 gene:ENSG00000216296 /// cdna:pseudogene chromosome:NCBI36:6:29213626:29214572:−1 gene:ENSG00000203492 8007584 ENST00000293414 /// Ankyrin repeat and SOCS box ankyrin repeat and ASB16 131 BC075088 /// protein 16 SOCS box-containing NM_080863 gene:ENSG00000161664 /// 16 Homo sapiens ankyrin repeat and SOCS box-containing 16, mRNA (cDNA clone MGC:103981 IMAGE:30915388), complete cds. /// Homo sapiens ankyrin repeat and SOCS box-containing 16 (ASB16), mRNA. 7964660 ENST00000299178 /// Vasopressin Via receptor arginine vasopressin AVPR1A 132 AY322550 /// gene:ENSG00000166148 /// receptor 1A NM_000706 Homo sapiens arginine vasopressin receptor 1A mRNA, complete cds. /// Homo sapiens arginine vasopressin receptor 1A (AVPR1A), mRNA. 7980003 ENST00000387477 ncrna:snRNA_pseudogene — — 133 chromosome:NCBI36:14:72783233:72783340:−1 gene:ENSG00000210212 8135458 ENST00000222597 /// E3 ubiquitin-protein ligase Hakai Cas-Br-M (murine) CBLL1 134 AK026762 /// gene:ENSG00000105879 /// ecotropic retroviral NM_024814 /// Homo sapiens cDNA:FLJ23109 transforming NR_024199 fis, clone LNG07754. /// Homo sapiens sequence-like 1 Cas-Br-M (murine) ecotropic retroviral transforming sequence-like 1 (CBLL1), transcript variant 1, mRNA. /// Homo sapiens Cas-Br-M (murine) ecotropic retroviral transforming sequence-like 1 (CBLL1), transcript variant 2, transcribed RNA. 7991512 ENST00000352519 /// Uncharacterized protein C15orf51 chromosome 15 open C15orf51 135 ENST00000341853 /// (Fragment) reading frame 51 AK302717 /// gene:ENSG00000182397 /// NR_003260 UPF0621 protein C15orf51 gene:ENSG00000182397 /// Homo sapiens cDNA FLJ54911 complete cds. /// Homo sapiens chromosome 15 open reading frame 51 (C15orf51), non-coding RNA. 8029693 ENST00000353609 /// Protein fosB FBJ murine FOSB 136 BC036724 /// gene:ENSG00000125740 /// osteosarcoma viral NM_006732 /// Homo sapiens FBJ murine oncogene homolog B NM_001114171 osteosarcoma viral oncogene homolog B, mRNA (cDNA clone MGC:39968 IMAGE:5212854), complete cds. /// Homo sapiens FBJ murine osteosarcoma viral oncogene homolog B (FOSB), transcript variant 1, mRNA. /// Homo sapiens FBJ murine osteosarcoma viral oncogene homolog B (FOSB), transcript variant 2, mRNA. 7981773 ENST00000384559 ncrna:snRNA — — 137 chromosome:NCBI36:15:19204036:19204142:1 gene:ENSG00000207289 7934729 GENSCAN00000036525 /// cdna:Genscan similar to LOC642538 /// 138 ENST00000318965 /// chromosome:NCBI36:10:81732033:81798683:−1 /// hCG1791993 /// LOC642521 ENST00000372288 /// cdna:pseudogene similar to ENST00000372287 /// chromosome:NCBI36:10:32840249:32840671:−1 hCG1791993 ENST00000405868 /// gene:ENSG00000181993 /// XM_001723653 /// cdna:pseudogene XM_926017 chromosome:NCBI36:10:81774473:81774898:−1 gene:ENSG00000204042 /// cdna:pseudogene chromosome:NCBI36:10:81781704:81782129:−1 gene:ENSG00000204041 /// cdna:pseudogene chromosome:NCBI36:10:81790363:81790779:−1 gene:ENSG00000217279 /// PREDICTED:Homo sapiens similar to hCG1791993 (LOC642538), mRNA. /// PREDICTED:Homo sapiens similar to hCG1791993 (LOC642521), mRNA. 7936996 ENST00000356858 /// Novel protein chromosome 10 open C10orf90 139 ENST00000284694 /// gene:ENSG00000154493 /// reading frame 90 ENST00000368674 /// cDNA FLJ60307 ENST00000392694 /// gene:ENSG00000154493 /// AK297577 /// Novel protein NM_001004298 gene:ENSG00000154493 /// Novel protein gene:ENSG00000154493 /// Homo sapiens cDNA FLJ60307 complete cds. /// Homo sapiens chromosome 10 open reading frame 90 (C10orf90), mRNA. 7906205 ENST00000329117 /// Isoform 1 of Brevican core protein brevican BCAN 140 ENST00000361588 /// gene:ENSG00000132692 /// ENST00000255029 /// Isoform 2 of Brevican core protein AY358372 /// gene:ENSG00000132692 /// NM_021948 /// Hyaluronan binding protein NM_198427 (Fragment) gene:ENSG00000132692 /// Homo sapiens clone DNA98565 Brevican Core Pro (UNQ2525) mRNA, complete cds. /// Homo sapiens brevican (BCAN), transcript variant 1, mRNA. /// Homo sapiens brevican (BCAN), transcript variant 2, mRNA. 8100990 BC132938 /// Homo sapiens pro-platelet basic pro-platelet basic PPBPL2 141 L10403 protein-like 2, mRNA (cDNA clone protein-like 2 MGC:164569 IMAGE:40146960), complete cds. /// Homo sapiens DNA binding protein for surfactant protein B mRNA, complete cds. 8156846 GENSCAN00000020848 /// cdna:Genscan — — 142 ENST00000409669 /// chromosome:NCBI36:9:101107215:101108714:1 /// ENST00000410082 /// cdna:pseudogene ENST00000409686 chromosome:NCBI36:9:101107215:101108714:1 gene:ENSG00000222026 /// cdna:pseudogene chromosome:NCBI36:9:101107215:101108714:1 gene:ENSG00000222034 /// cdna:pseudogene chromosome:NCBI36:9:101107215:101108714:1 gene:ENSG00000222039 8044563 ENST00000341010 /// Isoform 1 of lnterleukin-1 family interleukin 1 family, IL1F10 143 ENST00000337569 /// member 10 member 10 (theta) ENST00000393197 /// gene:ENSG00000136697 /// AY029413 /// Isoform 2 of lnterleukin-1 family NM_032556 /// member 10 NM_173161 gene:ENSG00000136697 /// Isoform 1 of lnterleukin-1 family member 10 gene:ENSG00000136697 /// Homo sapiens interleukin-1 receptor antagonist-like FIL1 theta (FIL1-theta) mRNA, complete cds. /// Homo sapiens interleukin 1 family, member 10 (theta) (IL1F10), transcript variant 1, mRNA. /// Homo sapiens interleukin 1 family, member 10 (theta) (IL1F10), transcript variant 2, mRNA. 7932964 ENST00000355848 /// Nuclear nucleic acid-binding nuclear DNA-binding C1D 144 ENST00000410067 /// protein C1D protein BC005235 /// gene:ENSG00000197223 /// NM_006333 /// cdna:known NM_173177 chromosome:NCBI36:2:68123292:68143661:−1 gene:ENSG00000197223 /// Homo sapiens nuclear DNA- binding protein, mRNA (cDNA clone MGC:12261 IMAGE:3930648), complete cds. /// Homo sapiens nuclear DNA- binding protein (C1D), transcript variant 1, mRNA. /// Homo sapiens nuclear DNA-binding protein (C1D), transcript variant 2, mRNA. 7912606 ENST00000361079 /// PRAME family member 7 PRAME family PRAMEF7 /// 145 ENST00000330881 /// gene:ENSG00000204510 /// member PRAMEF8 ENST00000357367 /// PRAME family member 7 7 /// PRAME NM_001012277 /// gene:ENSG00000204510 /// family NM_001012276 PRAME family member 8 member 8 gene:ENSG00000182330 /// Homo sapiens PRAME family member 7 (PRAMEF7), mRNA. /// Homo sapiens PRAME family member 8 (PRAMEF8), mRNA. 8099713 ENST00000387283 ncrna:Mt_tRNA_pseudogene — — 146 chromosome:NCBI36:4:25328670:25328727:−1 gene:ENSG00000210018 8139723 ENST00000324256 /// Putative FK506-binding protein 9- FK506 binding FKBP9L 147 BC011872 /// like protein protein NR_003949 gene:ENSG00000176826 /// 9-like Homo sapiens FK506 binding protein 9-like, mRNA (cDNA clone MGC:20531 IMAGE:3028515), complete cds. /// Homo sapiens FK506 binding protein 9-like (FKBP9L), non-coding RNA. 8109159 hsa-mir-145 /// MI0000461 Homo sapiens miR- hypothetical LOC72826 148 hsa-mir-145 /// 145 stem-loop /// MI0000461 protein 4 AK093957 Homo sapiens miR-145 stem-loop /// LOC728264 Homo sapiens cDNA FLJ36638 fis, clone TRACH2018950. 7906197 ENST00000255039 /// Hyaluronan and proteoglycan link hyaluronan and HAPLN2 149 AB049054 /// protein 2 proteoglycan link NM_021817 gene:ENSG00000132702 /// protein 2 Homo sapiens BRAL1 mRNA for brain link protein-1, complete cds. /// Homo sapiens hyaluronan and proteoglycan link protein 2 (HAPLN2), mRNA. 7912591 ENST00000361079 /// PRAME family member 7 PRAME family PRAMEF7 /// 150 ENST00000330881 /// gene:ENSG00000204510 /// member PRAMEF8 ENST00000357367 /// PRAME family member 7 7 /// PRAME NM_001012277 /// gene:ENSG00000204510 /// family NM_001012276 PRAME family member 8 member 8 gene:ENSG00000182330 /// Homo sapiens PRAME family member 7 (PRAMEF7), mRNA. /// Homo sapiens PRAME family member 8 (PRAMEF8), mRNA. 7986291 AY358254 Homo sapiens clone DNA172197 IFMQ9370 UNQ9370 151 IFMQ9370 (UNQ9370) mRNA, complete cds. 7925504 ENST00000357246 /// Microtubule-associated proteins microtubule- MAP1LC3C 152 BC132986 /// 1A/1B light chain 3C associated NM_001004343 gene:ENSG00000197769 /// protein 1 Homo sapiens microtubule- light chain 3 associated protein 1 light chain 3 gamma gamma, mRNA (cDNA clone MGC:164617 IMAGE:40147008), complete cds. /// Homo sapiens microtubule-associated protein 1 light chain 3 gamma (MAP1LC3C), mRNA. 7897991 ENST00000361079 /// PRAME family member 7 PRAME family PRAMEF7 /// 153 ENST00000330881 /// gene:ENSG00000204510 /// member PRAMEF8 ENST00000357367 /// PRAME family member 7 7 /// PRAME NM_001012277 /// gene:ENSG00000204510 /// family NM_001012276 PRAME family member 8 member 8 gene:ENSG00000182330 /// Homo sapiens PRAME family member 7 (PRAMEF7), mRNA. /// Homo sapiens PRAME family member 8 (PRAMEF8), mRNA. 7972461 ENST00000376503 /// Solute carrier family 15 member 1 solute carrier SLC15A1 154 ENST00000313260 /// gene:ENSG00000088386 /// pH- family 15 ENST00000376494 /// sensing regulatory factor of (oligopeptide U21936 /// peptide transporter transporter), NM_005073 gene:ENSG00000088386 /// member 1 Solute carrier family 15 (Oligopeptide transporter), member 1 gene:ENSG00000088386 /// Human peptide transporter (HPEPT1) mRNA, complete cds. /// Homo sapiens solute carrier family 15 (oligopeptide transporter), member 1 (SLC15A1), mRNA. 8146857 ENST00000388545 ncrna:rRNA_pseudogene — — 155 chromosome:NCBI36:8:69770442:69770521:1 gene:ENSG00000211280 7925846 AF220183 /// Homo sapiens uncharacterized chromosome 10 open C10orf110 156 BC104155 hypothalamus protein HT009 reading frame 110 mRNA, complete cds. /// Homo sapiens chromosome 10 open reading frame 110, mRNA (cDNA clone IMAGE:40029412), complete cds. 8059026 hsa-mir-375 /// MI0000783 Homo sapiens miR- — — 157 hsa-mir-375 375 stem-loop /// MI0000783 Homo sapiens miR-375 stem-loop 8071274 L20860 Human glycoprotein lb beta glycoprotein lb GP1BB 158 mRNA, complete cds. (platelet), beta polypeptide 8050113 AK125905 Homo sapiens cDNA FLJ43917 hypothetical LOC100129581 159 fis, clone TESTI4011505. LOC100129581 8170159 ENST00000370648 /// Bombesin receptor subtype-3 bombesin-like BRS3 160 L08893 /// gene:ENSG00000102239 /// receptor 3 NM_001727 Human bombesin receptor subtype-3 mRNA, complete cds. /// Homo sapiens bombesin-like receptor 3 (BRS3), mRNA. 7958711 ENST00000308208 /// Coiled-coil domain-containing coiled-coil domain CCDC63 161 BC044815 /// protein 63 containing 63 NM_152591 gene:ENSG00000173093 /// Homo sapiens coiled-coil domain containing 63, mRNA (cDNA clone IMAGE:5166270), complete cds. /// Homo sapiens coiled-coil domain containing 63 (CCDC63), mRNA. 8021357 ENST00000262095 /// one cut domain, family member 2 one cut homeobox 2 ONECUT2 162 NM_004852 gene:ENSG00000119547 /// Homo sapiens one cut homeobox 2 (ONECUT2), mRNA. 8095161 ENST00000387825 ncrna:snRNA_pseudogene — — 163 chromosome:NCBI36:4:56359561:56359653:1 gene:ENSG00000210560 7960861 ENST00000364793 ncrna:misc_RNA — — 164 chromosome:NCBI36:12:7894580:7894681:−1 gene:ENSG00000201663 8127932 ENST00000330469 /// TBX18 protein (Fragment) T-box 18 TBX18 165 ENST00000369663 /// gene:ENSG00000112837 /// T- BC132715 /// box transcription factor TBX18 NM_001080508 gene:ENSG00000112837 /// Homo sapiens T-box 18, mRNA (cDNA clone MGC:164346 IMAGE:40146737), complete cds. /// Homo sapiens T-box 18 (TBX18), mRNA. 8116607 ENST00000399551 /// hypothetical protein hypothetical DKFZP686115217 166 AK123663 /// gene:ENSG00000215076 /// LOC401232 BC108683 Homo sapiens cDNA FLJ41669 fis, clone FEBRA2028618. /// Homo sapiens cDNA clone IMAGE:5212284. 8164766 ENST00000298545 /// Isoform 1 of Putative adenylate chromosome 9 open C9orf98 167 BC050576 /// kinase-like protein C9orf98 reading frame 98 NM_152572 gene:ENSG00000165695 /// Homo sapiens chromosome 9 open reading frame 98, mRNA (cDNA clone MGC:57797 IMAGE:5744517), complete cds. /// Homo sapiens chromosome 9 open reading frame 98 (C9orf98), mRNA. 8012726 ENST00000379814 /// MYH1 protein (Fragment) myosin, heavy MYH1 168 ENST00000226207 /// gene:ENSG00000109061 /// chain 1, AF111785 /// Myosin-1 skeletal muscle, NM_005963 gene:ENSG00000109061 /// adult Homo sapiens myosin heavy chain IIx/d mRNA, complete cds. /// Homo sapiens myosin, heavy chain 1, skeletal muscle, adult (MYH1), mRNA. 7906552 ENST00000368078 /// Calsequestrin calsequestrin 1 CASQ1 169 ENST00000368079 /// gene:ENSG00000143318 /// (fast-twitch, BC022289 /// Calsequestrin-1 skeletal muscle) NM_001231 gene:ENSG00000143318 /// Homo sapiens calsequestrin 1 (fast-twitch, skeletal muscle), mRNA (cDNA clone MGC:22462 IMAGE:4338020), complete cds. /// Homo sapiens calsequestrin 1 (fast-twitch, skeletal muscle) (CASQ1), nuclear gene encoding mitochondrial protein, mRNA. 8115831 ENST00000239223 /// Dual specificity protein dual specificity DUSP1 170 BC022463 /// phosphatase 1 phosphatase 1 NM_004417 gene:ENSG00000120129 /// Homo sapiens dual specificity phosphatase 1, mRNA (cDNA clone MGC:26153 IMAGE:4794895), complete cds. /// Homo sapiens dual specificity phosphatase 1 (DUSP1), mRNA. 8143708 AK125575 Homo sapiens cDNA FLJ43587 — — 171 fis, clone SKNMC2009450. 8036430 ENST00000358582 /// Isoform 2 of Zinc finger protein zinc finger ZNF781 172 BC108687 /// 781 gene:ENSG00000196381 /// protein 781 NM_152605 Homo sapiens zinc finger protein 781, mRNA (cDNA clone MGC:131783 IMAGE:6148649), complete cds. /// Homo sapiens zinc finger protein 781 (ZNF781), mRNA. 7937975 ENST00000354690 cdna:pseudogene — — 173 chromosome:NCBI36:11:4809975:4810860:1 gene:ENSG00000197984 7973054 ENST00000363355 ncrna:rRNA — — 174 chromosome:NCBI36:14:19952986:19953103:1 gene:ENSG00000200225 8052698 ENST00000355848 /// Nuclear nucleic acid-binding nuclear DNA-binding C1D 175 ENST00000407324 /// protein C1D protein ENST00000410067 /// gene:ENSG00000197223 /// 20 ENST00000409302 /// kDa protein BC005235 /// gene:ENSG00000197223 /// NM_006333 /// cdna:known NM_173177 chromosome:NCBI36:2:68123292:68143661:−1 gene:ENSG00000197223 /// cdna:known chromosome:NCBI36:2:68123313:68143645:−1 gene:ENSG00000197223 /// Homo sapiens nuclear DNA- binding protein, mRNA (cDNA clone MGC:12261 IMAGE:3930648), complete cds. /// Homo sapiens nuclear DNA- binding protein (C1D), transcript variant 1, mRNA. /// Homo sapiens nuclear DNA-binding protein (C1D), transcript variant 2, mRNA. 8113352 ENST00000388656 ncrna:Mt_tRNA_pseudogene — — 176 chromosome:NCBI36:5:99414667:99414734:−1 gene:ENSG00000211391 8077499 AF086709 /// Homo sapiens NAG-7 protein loss of LOH3CR2A 177 AK054898 /// (NAG-7) mRNA, complete cds. /// heterozygosity, BC016278 Homo sapiens cDNA FLJ30336 3, chromosomal fis, clone BRACE2007358, region moderately similar to Homo sapiens 2, gene A NAG-7 protein (NAG-7) mRNA. /// Homo sapiens loss of heterozygosity, 3, chromosomal region 2, gene A, mRNA (cDNA clone MGC:8781 IMAGE:3915957), complete cds. 8104074 ENST00000307161 /// Melatonin receptor type 1A melatonin MTNR1A 178 BC126297 /// gene:ENSG00000168412 /// receptor 1A NM_005958 Homo sapiens melatonin receptor 1A, mRNA (cDNA clone MGC:161575 IMAGE:8992013), complete cds. /// Homo sapiens melatonin receptor 1A (MTNR1A), mRNA. 7951701 ENST00000388431 /// ncrna:scRNA_pseudogene — — 179 ENST00000388445 chromosome:NCBI36:11:112053855:112053924:−1 gene:ENSG00000211166 /// ncrna:scRNA_pseudogene chromosome:NCBI36:11:112986610:112986679:1 gene:ENSG00000211180 8157092 ENST00000374692 /// Trimeric intracellular cation transmembrane TMEM38B 180 ENST00000374689 /// channel type B protein 38B ENST00000374688 /// gene:ENSG00000095209 /// BC000049 /// Putative uncharacterized protein NM_018112 TMEM38B gene:ENSG00000095209 /// 26 kDa protein gene:ENSG00000095209 /// Homo sapiens transmembrane protein 38B, mRNA (cDNA clone MGC:960 IMAGE:3506969), complete cds. /// Homo sapiens transmembrane protein 38B (TMEM38B), mRNA. 7942814 ENST00000387816 ncrna:Mt_tRNA_pseudogene — — 181 chromosome:NCBI36:11:80940435:80940502:1 gene:ENSG00000210551 8090366 ENST00000290868 /// Probable urocanate hydratase urocanase domain UROC1 182 ENST00000383579 /// gene:ENSG00000159650 /// containing 1 BC115405 /// Urocanase family protein NM_144639 gene:ENSG00000159650 /// Homo sapiens urocanase domain containing 1, mRNA (cDNA clone MGC:135007 IMAGE:40076084), complete cds. /// Homo sapiens urocanase domain containing 1 (UROC1), mRNA. 8036300 ENST00000363309 ncrna:misc_RNA — — 183 chromosome:NCBI36:19:41386089:41386201:−1 gene:ENSG00000200179 8036403 ENST00000316807 Putative uncharacterized protein — — 184 LOC400692 gene:ENSG00000180458 7971644 ENST00000378195 /// Isoform 2 of Chronic lymphocytic chromosome 13 open C13orf1 185 ENST00000361840 /// leukemia deletion region gene 6 reading frame 1 AF334405 /// protein gene:ENSG00000123178 /// NM_020456 /// Isoform 1 of Chronic NM_001127482 /// lymphocytic leukemia deletion NR_023351 region gene 6 protein gene:ENSG00000123178 /// Homo sapiens CLLL6 protein (CLLD6) mRNA, complete cds. /// Homo sapiens chromosome 13 open reading frame 1 (C13orf1), transcript variant 1, mRNA. /// Homo sapiens chromosome 13 open reading frame 1 (C13orf1), transcript variant 2, mRNA. /// Homo sapiens chromosome 13 open reading frame 1 (C13orf1), transcript variant 3, transcribed RNA. 8157216 ENST00000374279 /// Ceramide glucosyltransferase UDP-glucose ceramide UGCG 186 BC038711 /// gene:ENSG00000148154 /// glucosyltransferase NM_003358 Homo sapiens UDP-glucose ceramide glucosyltransferase, mRNA (cDNA clone MGC:33797 IMAGE:5295561), complete cds. /// Homo sapiens UDP-glucose ceramide glucosyltransferase (UGCG), mRNA. 8074714 ENST00000342005 /// cDNA FLJ60978, weakly similar to POM121 membrane POM121L1 /// 187 ENST00000329949 /// Nuclear envelope pore membrane glycoprotein- DKFZp434K191 /// ENST00000402027 /// protein POM 121 like 1 (rat) /// DKFZP434P211 ENST00000248992 /// gene:ENSG00000182356 /// POM121 membrane AK292412 /// Putative uncharacterized protein glycoprotein- AK302597 /// ENSP00000383394 like 1 AY358961 /// gene:ENSG00000217261 /// pseudogene /// NR_003714 POM121-like 1 protein POM121 membrane gene:ENSG00000183169 /// glycoprotein- POM121-like like 1 gene:ENSG00000128262 /// pseudogene Homo sapiens cDNA FLJ76724 complete cds. /// Homo sapiens cDNA FLJ60978 complete cds, weakly similar to Nuclear envelope pore membrane protein POM 121. /// Homo sapiens clone DNA107786 POM121-like (UNQ2565) mRNA, complete cds. /// Homo sapiens POM121-like protein (DKFZP434P211), non- coding RNA. 8065758 AK096092 Homo sapiens cDNA FLJ38773 hypothetical protein FLJ38773 188 fis, clone KIDNE2018071. FLJ38773 8049530 ENST00000308482 /// leucine rich repeat (in FLU) leucine rich LRRFIP1 189 NM_001137550 interacting protein 1 isoform 1 repeat (in gene:ENSG00000124831 /// FLU) interacting Homo sapiens leucine rich repeat protein 1 (in FLII) interacting protein 1 (LRRFIP1), transcript variant 1, mRNA. 7906475 ENST00000321935 /// Isoform 2 of Fc receptor-like Fc receptor-like 6 FCRL6 190 ENST00000368106 /// protein 6 ENST00000339348 /// gene:ENSG00000181036 /// ENST00000392235 /// Isoform 1 of Fc receptor-like AK131201 /// protein 6 NM_001004310 gene:ENSG00000181036 /// Isoform 3 of Fc receptor-like protein 6 gene:ENSG00000181036 /// Isoform 4 of Fc receptor-like protein 6 gene:ENSG00000181036 /// Homo sapiens cDNA FLJ16056 fis, clone SPLEN2010588, weakly similar to CELL SURFACE GLYCOPROTEIN GP42 PRECURSOR. /// Homo sapiens Fc receptor-like 6 (FCRL6), mRNA. 7989476 ENST00000304813 /// cdna:known hypothetical FLJ38723 191 ENST00000299125 /// chromosome:NCBI36:15:60322074:60323649:−1 FLJ38723 AK096042 gene:ENSG00000220356 /// Isoform 1 of Golgin subfamily A member 2-like protein 4 gene:ENSG00000166104 /// Homo sapiens cDNA FLJ38723 fis, clone KIDNE2010137, weakly similar to GOLGIN-95. 8103722 ENST00000325407 /// Heat shock protein 90Af heat shock protein HSP90AA6P 192 AY956762 gene:ENSG00000181359 /// 90 kDa alpha Homo sapiens heat shock protein (cytosolic), 90Af (HSP90Af) mRNA, complete class A member 6 cds. (pseudogene) 8035146 ENST00000409035 /// cdna:known calreticulin 3 CALR3 193 ENST00000269881 /// chromosome:NCBI36:19:16450878:16600015:−1 BC014595 /// gene:ENSG00000141979 /// NM_145046 Calreticulin-3 gene:ENSG00000141979 /// Homo sapiens calreticulin 3, mRNA (cDNA clone MGC:26577 IMAGE:4822010), complete cds. /// Homo sapiens calreticulin 3 (CALR3), mRNA. 8150722 ENST00000276480 /// Suppression of tumorigenicity suppression of ST18 194 AB011107 /// protein 18 tumorigenicity 18 NM_014682 gene:ENSG00000147488 /// (breast carcinoma) Homo sapiens mRNA for (zinc finger KIAA0535 protein, complete cds. /// protein) Homo sapiens suppression of tumorigenicity 18 (breast carcinoma) (zinc finger protein) (ST18), mRNA. 8053715 GENSCAN00000025928 /// cdna:Genscan — — 195 ENST00000312946 /// chromosome:NCBI36:2:89209283:89223706:−1 /// ENST00000402897 cdna:pseudogene chromosome:NCBI36:2:89209304:89210080:−1 gene:ENSG00000204732 /// cdna:pseudogene chromosome:NCBI36:2:89728732:89729523:1 gene:ENSG00000218041 7922976 ENST00000367468 /// Prostaglandin G/H synthase 2 prostaglandin- PTGS2 196 AY151286 /// gene:ENSG00000073756 /// endoperoxide NM_000963 Homo sapiens cyclooxygenase 2b synthase mRNA, complete cds; 2 (prostaglandin alternatively spliced. /// Homo sapiens G/H synthase and prostaglandin- cyclooxygenase) endoperoxide synthase 2 (prostaglandin G/H synthase and cyclooxygenase) (PTGS2), mRNA. 8087433 ENST00000273588 /// Aminomethyltransferase, nicolin 1 /// NICN1 /// 197 ENST00000395338 /// mitochondrial aminomethyl- AMT ENST00000273598 /// gene:ENSG00000145020 /// transferase AF538150 /// Aminomethyltransferase D13811 /// gene:ENSG00000145020 /// NM_000481 /// Isoform 1 of Nicolin-1 NM_032316 gene:ENSG00000145029 /// Homo sapiens NPCEDRGP (NPCEDRG) mRNA, NPCEDRG- s allele, complete cds. /// Homo sapiens mRNA for glycine cleavage system T-protein, complete cds. /// Homo sapiens aminomethyltransferase (AMT), mRNA. /// Homo sapiens nicolin 1 (NICN1), mRNA. 8075142 ENST00000397906 /// Tetratricopeptide repeat protein tetratricopeptide TTC28 198 ENST00000266082 /// 28 gene:ENSG00000100154 /// repeat AB028966 /// Tetratricopeptide repeat protein domain 28 BC016465 28 gene:ENSG00000100154 /// Homo sapiens mRNA for KIAA1043 protein, partial cds. /// Homo sapiens tetratricopeptide repeat domain 28, mRNA (cDNA clone MGC:18145 IMAGE:4154050), complete cds. 7919751 ENST00000307940 /// Isoform 2 of Induced myeloid myeloid cell MCL1 199 ENST00000369026 /// leukemia cell differentiation leukemia BC017197 /// protein Mcl-1 sequence 1 (BCL2- NM_182763 /// gene:ENSG00000143384 /// related) NM_021960 Isoform 1 of Induced myeloid leukemia cell differentiation protein Mcl-1 gene:ENSG00000143384 /// Homo sapiens myeloid cell leukemia sequence 1 (BCL2- related), mRNA (cDNA clone MGC:1839 IMAGE:3138465), complete cds. /// Homo sapiens myeloid cell leukemia sequence 1 (BCL2-related) (MCL1), transcript variant 2, mRNA. /// Homo sapiens myeloid cell leukemia sequence 1 (BCL2-related) (MCL1), transcript variant 1, mRNA. 8000590 ENST00000314752 /// Sulfotransferase 1A1 sulfotransferase SULT1A1 200 ENST00000395609 /// gene:ENSG00000196502 /// family, ENST00000395607 /// Sulfotransferase 1A1 cytosolic, 1A, ENST00000350842 /// gene:ENSG00000196502 /// phenol- AB209149 /// Sulfotransferase 1A1 preferring, NM_177529 /// gene:ENSG00000196502 /// member 1 NM_177530 /// sulfotransferase family, cytosolic, NM_177536 /// 1A, phenol-preferring, member 1 NM_001055 /// isoform b NM_177534 gene:ENSG00000196502 /// Homo sapiens mRNA for Phenol- sulfating phenol sulfotransferase 1 variant protein. /// Homo sapiens sulfotransferase family, cytosolic, 1A, phenol-preferring, member 1 (SULT1A1), transcript variant 2, mRNA. /// Homo sapiens sulfotransferase family, cytosolic, 1A, phenol-preferring, member 1 (SULT1A1), transcript variant 3, mRNA. /// Homo sapiens sulfotransferase family, cytosolic, 1A, phenol-preferring, member 1 (SULT1A1), transcript variant 5, mRNA. /// Homo sapiens sulfotransferase family, cytosolic, 1A, phenol-preferring, member 1 (SULT1A1), transcript variant 1, mRNA. /// Homo sapiens sulfotransferase family, cytosolic, 1A, phenol-preferring, member 1 (SULT1A1), transcript variant 4, mRNA. 7973444 ENST00000386719 /// ncrna:snRNA_pseudogene — — 201 ENST00000410999 chromosome:NCBI36:14:23330971:23331182:1 gene:ENSG00000209454 /// ncrna:misc_RNA chromosome:NCBI36:14:23330979:23331267:1 gene:ENSG00000222931 8072004 ENST00000382738 /// immunoglobulin lambda-like immunoglobulin IGLL3 202 NM_001013618 polypeptide 3 lambda-like gene:ENSG00000206066 /// polypeptide 3 Homo sapiens immunoglobulin lambda-like polypeptide 3 (IGLL3), mRNA. 7982574 ENST00000397609 /// family with sequence similarity 98, family with FAM98B 203 ENST00000305752 /// member B isoform 1 sequence AK095745 /// gene:ENSG00000171262 /// similarity 98, NM_173611 /// Protein FAM98B member B NM_001042429 gene:ENSG00000171262 /// Homo sapiens cDNA FLJ38426 fis, clone FEBRA2012507. /// Homo sapiens family with sequence similarity 98, member B (FAM98B), transcript variant 1, mRNA. /// Homo sapiens family with sequence similarity 98, member B (FAM98B), transcript variant 2, mRNA. 8135436 ENST00000265715 /// Pendrin solute carrier SLC26A4 204 AF030880 /// gene:ENSG00000091137 /// family 26, NM_000441 Homo sapiens pendrin (PDS) member 4 mRNA, complete cds. /// Homo sapiens solute carrier family 26, member 4 (SLC26A4), mRNA. 8180281 — — — — 205 8080676 ENST00000311180 /// Isoform 1 of 2′,5′- phosphodiesterase 12 PDE12 206 AK300374 /// phosphodiesterase 12 NM_177966 gene:ENSG00000174840 /// Homo sapiens cDNA FLJ54489 complete cds, highly similar to Homo sapiens 2′- phosphodiesterase (2-PDE), mRNA. /// Homo sapiens phosphodiesterase 12 (PDE12), mRNA. 8154135 ENST00000262352 /// Excitatory amino acid transporter solute carrier family 1 SLC1A1 207 ENST00000381910 /// 3 gene:ENSG00000106688 /// (neuronal/epithelial BC033040 /// Solute carrier family 1 high affinity glutamate NM_004170 (Neuronal/epithelial high affinity transporter, system glutamate transporter, system Xag), member 1 Xag), member 1 gene:ENSG00000106688 /// Homo sapiens solute carrier family 1 (neuronal/epithelial high affinity glutamate transporter, system Xag), member 1, mRNA (cDNA clone MGC:33786 IMAGE:5261168), complete cds. /// Homo sapiens solute carrier family 1 (neuronal/epithelial high affinity glutamate transporter, system Xag), member 1 (SLC1A1), mRNA. 8091306 ENST00000354952 /// Phospholipid scramblase 4 phospholipid PLSCR4 208 ENST00000383083 /// gene:ENSG00000114698 /// scramblase 4 AF199023 /// phospholipid scramblase 4 NM_001128305 /// isoform b NM_020353 /// gene:ENSG00000114698 /// NM_001128304 /// Homo sapiens phospholipid NM_001128306 scramblase 4 mRNA, complete cds. /// Homo sapiens phospholipid scramblase 4 (PLSCR4), transcript variant 3, mRNA. /// Homo sapiens phospholipid scramblase 4 (PLSCR4), transcript variant 2, mRNA. /// Homo sapiens phospholipid scramblase 4 (PLSCR4), transcript variant 1, mRNA. /// Homo sapiens phospholipid scramblase 4 (PLSCR4), transcript variant 4, mRNA. 7971375 ENST00000379056 /// Tumor protein, translationally- tumor protein, TPT1 209 ENST00000379060 /// controlled 1, isoform CRA a translationally- ENST00000379055 /// gene:ENSG00000133112 /// controlled 1 ENST00000309246 /// Translationally-controlled tumor BC040008 /// protein gene:ENSG00000133112 /// NM_003295 Tumor protein, translationally- controlled 1, isoform CRA a gene:ENSG00000133112 /// Tumor protein, translationally- controlled 1 gene:ENSG00000133112 /// Homo sapiens tumor protein, translationally-controlled 1, mRNA (cDNA clone IMAGE:5219529), complete cds. /// Homo sapiens tumor protein, translationally-controlled 1 (TPT1), mRNA. 7981998 NR_003339 Homo sapiens small nucleolar small nuclear SNRPN /// 210 RNA, C/D box 116-25 ribonucleoprotein SNORD11 (SNORD116-25), non-coding polypeptide N /// small 6-25 RNA. nucleolar RNA, C/D box 116-25 7905077 BC068044 Homo sapiens cDNA clone 211 IMAGE:6380649, containing frame-shift errors. 7912349 ENST00000377008 /// Isoform 1 of Uncharacterized chromosome 1 open C1orf127 212 ENST00000377004 /// protein C1orf127 reading frame 127 AK094437 /// gene:ENSG00000175262 /// AK095152 /// Isoform 2 of Uncharacterized BC126349 protein C1orf127 gene:ENSG00000175262 /// Homo sapiens cDNA FLJ37118 fis, clone BRACE2022328. /// Homo sapiens cDNA FLJ37833 fis, clone BRSSN2009702. /// Homo sapiens chromosome 1 open reading frame 127, mRNA (cDNA clone MGC:161627 IMAGE:8992065), complete cds. 8091097 XR_040865 PREDICTED:Homo sapiens hypothetical protein FLJ11827 213 misc_RNA (FLJ11827), miscRNA. FLJ11827 7904287 ENST00000369478 /// T-cell surface antigen CD2 CD2 molecule CD2 214 ENST00000369477 /// gene:ENSG00000116824 /// CD2 BC033583 /// molecule NM_001767 gene:ENSG00000116824 /// Homo sapiens CD2 molecule, mRNA (cDNA clone MGC:34621 IMAGE:5227138), complete cds. /// Homo sapiens CD2 molecule (CD2), mRNA. 8043100 ENST00000233143 /// Thymosin beta-10 thymosin beta 10 TMSB10 215 BC107889 /// gene:ENSG00000034510 /// NM_021103 Homo sapiens cDNA clone IMAGE:6651898. /// Homo sapiens thymosin beta 10 (TMSB10), mRNA. 8177323 ENST00000303804 /// Isoform 1 of PTPN13-like protein, PTPN13-like, PRY /// 216 ENST00000341740 /// Y-linked Y-linked /// PRY2 ENST00000338793 /// gene:ENSG00000169807 /// PTPN13-like, Y- ENST00000303728 /// Isoform 2 of PTPN13-like protein, linked 2 ENST00000343584 /// Y-linked ENST00000303593 /// gene:ENSG00000169807 /// ENST00000306589 /// Isoform 2 of PTPN13-like protein, ENST00000338673 /// Y-linked AF517635 /// gene:ENSG00000169789 /// NM_001002758 /// Isoform 1 of PTPN13-like protein, NM_004676 Y-linked gene:ENSG00000169789 /// Isoform 1 of PTPN13-like protein, Y-linked gene:ENSG00000169763 /// Isoform 2 of PTPN13-like protein, Y-linked gene:ENSG00000169763 /// Isoform 1 of PTPN13-like protein, Y-linked gene:ENSG00000172283 /// Isoform 2 of PTPN13-like protein, Y-linked gene:ENSG00000172283 /// Homo sapiens testis-specific PTP-BL related Y protein mRNA, complete cds, alternatively spliced. /// Homo sapiens PTPN13-like, Y-linked 2 (PRY2), mRNA. /// Homo sapiens PTPN13-like, Y-linked (PRY), mRNA. 7920633 ENST00000368399 /// cDNA FLJ60436, highly similar to dolichyl-phosphate DPM3 217 ENST00000341298 /// Homo sapiens dolichyl-phosphate mannosyltransferase ENST00000368400 /// mannosyltransferase polypeptide polypeptide 3 AK293625 /// 3, transcript variant 1, mRNA NM_153741 /// gene:ENSG00000179085 /// NM_018973 Isoform 1 of Dolichol-phosphate mannosyltransferase subunit 3 gene:ENSG00000179085 /// Isoform 1 of Dolichol-phosphate mannosyltransferase subunit 3 gene:ENSG00000179085 /// Homo sapiens cDNA FLJ60436 complete cds, highly similar to Homo sapiens dolichyl-phosphate mannosyltransferase polypeptide 3, transcript variant 1, mRNA. /// Homo sapiens dolichyl-phosphate mannosyltransferase polypeptide 3 (DPM3), transcript variant 2, mRNA. /// Homo sapiens dolichyl- phosphate mannosyltransferase polypeptide 3 (DPM3), transcript variant 1, mRNA. 8110916 ENST00000382550 /// cDNA FLJ42124 fis, clone similar to LOC442132 218 AK124118 TESTI2009477, weakly similar to hypothetical TRICHOHYALIN protein FLJ36144 gene:ENSG00000205976 /// Homo sapiens cDNA FLJ42124 fis, clone TESTI2009477, weakly similar to TRICHOHYALIN. 7943051 ENST00000321955 /// N-acetylated-alpha-linked acidic N-acetylated alpha- NAALAD2 219 ENST00000375944 /// dipeptidase 2 linked acidic BC096316 /// gene:ENSG00000077616 /// dipeptidase 2 NM_005467 NAALAD2 protein gene:ENSG00000077616 /// Homo sapiens N-acetylated alpha-linked acidic dipeptidase 2, mRNA (cDNA clone MGC:116994 IMAGE:40007638), complete cds. /// Homo sapiens N-acetylated alpha-linked acidic dipeptidase 2 (NAALAD2), mRNA. 7938951 ENST00000324559 /// Anoctamin-5 anoctamin 5 ANO5 220 AL833271 /// gene:ENSG00000171714 /// NM_213599 Homo sapiens mRNA; cDNA DKFZp451A148 (from clone DKFZp451A148). /// Homo sapiens anoctamin 5 (ANO5), mRNA. 8083839 ENST00000402305 /// Probable G-protein coupled G protein-coupled GPR160 221 ENST00000355897 /// receptor 160 receptor 160 BC000181 /// gene:ENSG00000173890 /// NM_014373 Probable G-protein coupled receptor 160 gene:ENSG00000173890 /// Homo sapiens G protein-coupled receptor 160, mRNA (cDNA clone MGC:5003 IMAGE:3048193), complete cds. /// Homo sapiens G protein-coupled receptor 160 (GPR160), mRNA. 8046020 ENST00000375437 /// Isoform 1 of Sodium channel sodium channel, SCN2A 222 ENST00000357398 /// protein type 2 subunit alpha voltage-gated, ENST00000283256 /// gene:ENSG00000136531 /// type II, ENST00000375427 /// Isoform 2 of Sodium channel alpha subunit AB208888 /// protein type 2 subunit alpha NM_021007 /// gene:ENSG00000136531 /// NM_001040142 /// Isoform 1 of Sodium channel NM_001040143 protein type 2 subunit alpha gene:ENSG00000136531 /// Isoform 2 of Sodium channel protein type 2 subunit alpha gene:ENSG00000136531 /// Homo sapiens mRNA for Sodium channel protein type II alpha subunit variant protein. /// Homo sapiens sodium channel, voltage- gated, type II, alpha subunit (SCN2A), transcript variant 1, mRNA. /// Homo sapiens sodium channel, voltage-gated, type II, alpha subunit (SCN2A), transcript variant 2, mRNA. /// Homo sapiens sodium channel, voltage- gated, type II, alpha subunit (SCN2A), transcript variant 3, mRNA. 8127658 ENST00000364421 ncrna:snRNA — — 223 chromosome:NCBI36:6:76240174:76240330:−1 gene:ENSG00000201291 8129097 AK096882 Homo sapiens cDNA FLJ39563 TSPY-like 1 TSPYL1 224 fis, clone SKMUS2001164. 7903079 ENST00000370272 /// Protein Dr1 down-regulator of DR1 225 ENST00000370267 /// gene:ENSG00000117505 /// transcription 1, TBP- BC035507 /// Protein Dr1 binding (negative NM_001938 gene:ENSG00000117505 /// cofactor 2) Homo sapiens down-regulator of transcription 1, TBP-binding (negative cofactor 2), mRNA (cDNA clone MGC:29766 IMAGE:4555131), complete cds. /// Homo sapiens down-regulator of transcription 1, TBP-binding (negative cofactor 2) (DR1), mRNA. 8110104 ENST00000410179 ncrna:misc_RNA — — 226 chromosome:NCBI36:5:174987797:174988108:1 gene:ENSG00000222111 8127145 ENST00000304434 /// Elongation of very long chain fatty ELOVL family ELOVL5 227 ENST00000370918 /// acids protein 5 member AF338241 /// gene:ENSG00000012660 /// 35 5, elongation of long NM_021814 kDa protein chain fatty acids gene:ENSG00000012660 /// (FEN1/Elo2, Homo sapiens elongation of very SUR4/Elo3-like, yeast) long chain fatty acids protein-like protein 2 (ELOVL2) mRNA, complete cds. /// Homo sapiens ELOVL family member 5, elongation of long chain fatty acids (FEN1/EIo2, SUR4/Elo3- like, yeast) (ELOVL5), mRNA. 8175299 ENST00000391440 /// Protein FAM127C family with sequence FAM127C 228 BC086860 /// gene:ENSG00000212747 /// similarity 127, NM_001078173 Homo sapiens cDNA clone member C IMAGE:6153002. /// Homo sapiens family with sequence similarity 127, member C (FAM127C), mRNA. 8033248 ENST00000245912 /// tumor necrosis factor ligand tumor necrosis factor TNFSF14 229 AF064090 /// superfamily, member 14 isoform 1 (ligand) superfamily, precursor member 14 NM_172014 /// gene:ENSG00000125735 /// NM_003807 Homo sapiens ligand for herpesvirus entry mediator (HVEM-L) mRNA, complete cds. /// Homo sapiens tumor necrosis factor (ligand) superfamily, member 14 (TNFSF14), transcript variant 2, mRNA. /// Homo sapiens tumor necrosis factor (ligand) superfamily, member 14 (TNFSF14), transcript variant 1, mRNA. 7933075 ENST00000374694 /// Frizzled-8 frizzled homolog 8 FZD8 230 AB043703 /// gene:ENSG00000177283 /// (Drosophila) NM_031866 Homo sapiens FZD8 mRNA for seven-transmembrane receptor Frizzled-8, complete cds. /// Homo sapiens frizzled homolog 8 (Drosophila) (FZD8), mRNA. 7915870 ENST00000371937 /// ATP synthase mitochondrial F1 ATP synthase ATPAF1 231 ENST00000329231 /// complex assembly factor 1 mitochondrial F1 BC008498 /// gene:ENSG00000123472 /// ATP complex assembly NM_022745 /// synthase mitochondrial F1 factor 1 NM_001042546 complex assembly factor 1 isoform 2 precursor gene:ENSG00000123472 /// Homo sapiens ATP synthase mitochondrial F1 complex assembly factor 1, mRNA (cDNA clone MGC:14830 IMAGE:4281102), complete cds. /// Homo sapiens ATP synthase mitochondrial F1 complex assembly factor 1 (ATPAF1), nuclear gene encoding mitochondrial protein, transcript variant 1, mRNA. /// Homo sapiens ATP synthase mitochondrial F1 complex assembly factor 1 (ATPAF1), nuclear gene encoding mitochondrial protein, transcript variant 2, mRNA. 8121064 ENST00000388700 /// ncrna:scRNA_pseudogene — — 232 ENST00000411294 chromosome:NCBI36:6:88612087:88612384:1 gene:ENSG00000211435 /// ncrna:misc_RNA chromosome:NCBI36:6:88612087:88612382:1 gene:ENSG00000223226 8161437 GENSCAN00000015556 /// cdna:Genscan similar to LOC100132357 233 ENST00000407551 /// chromosome:NCBI36:9:46007163:46060142:−1 /// hCG1656091 XM_001714380 cdna:pseudogene chromosome:NCBI36:9:46277008:46277218:1 gene:ENSG00000216653 /// PREDICTED:Homo sapiens similar to hCG1656091 (LOC100132357), mRNA. 8008980 ENST00000335108 /// Putative uncharacterized protein chromosome 17 open C17orf82 234 BC046200 C17orf82 reading frame 82 gene:ENSG00000187013 /// Homo sapiens chromosome 17 open reading frame 82, mRNA (cDNA clone MGC:57831 IMAGE:6152618), complete cds. 8154563 ENST00000340967 /// Isoform 1 of Alkaline ceramidase alkaline ceramidase 2 ACER2 235 ENST00000380376 /// 2 gene:ENSG00000177076 /// BC092487 /// Isoform 3 of Alkaline ceramidase NM_001010887 2 gene:ENSG00000177076 /// Homo sapiens N-acylsphingosine amidohydrolase 3-like, mRNA (cDNA clone MGC:104688 IMAGE:30528463), complete cds. /// Homo sapiens N- acylsphingosine amidohydrolase 3-like (ASAH3L), mRNA. 8161426 GENSCAN00000015556 /// cdna:Genscan similar to LOC100132357 236 ENST00000407551 /// chromosome:NCBI36:9:46007163:46060142:−1 /// hCG1656091 XM_001714380 cdna:pseudogene chromosome:NCBI36:9:46277008:46277218:1 gene:ENSG00000216653 /// PREDICTED:Homo sapiens similar to hCG1656091 (LOC100132357), mRNA. 8083223 ENST00000315691 /// UPF0672 protein C3orf58 chromosome 3 open C3orf58 237 BC037293 /// gene:ENSG00000181744 /// reading frame 58 NM_173552 /// Homo sapiens chromosome 3 NM_001134470 open reading frame 58, mRNA (cDNA clone MGC:33365 IMAGE:5267770), complete cds. /// Homo sapiens chromosome 3 open reading frame 58 (C3orf58), transcript variant 1, mRNA. /// Homo sapiens chromosome 3 open reading frame 58 (C3orf58), transcript variant 2, mRNA. 8001329 ENST00000219197 /// Cerebellin-1 cerebellin 1 precursor CBLN1 238 M58583 /// gene:ENSG00000102924 /// NM_004352 Human precerebellin and cerebellin mRNA, complete cds. /// Homo sapiens cerebellin 1 precursor (CBLN1), mRNA. 8165575 ENST00000371457 /// cDNA FLJ45411 fis, clone patatin-like PNPLA7 239 ENST00000277531 /// BRHIP3032374, moderately phospholipase domain ENST00000406427 /// similar to Homo sapiens containing 7 ENST00000371451 /// neuropathy target esterase ENST00000371450 /// gene:ENSG00000130653 /// ENST00000371446 /// Isoform 1 of Patatin-like AK297623 /// phospholipase domain-containing NM_152286 /// protein 7 NM_001098537 gene:ENSG00000130653 /// patatin-like phospholipase domain containing 7 isoform a gene:ENSG00000130653 /// Putative uncharacterized protein PNPLA7 gene:ENSG00000130653 /// Isoform 2 of Patatin-like phospholipase domain-containing protein 7 gene:ENSG00000130653 /// 23 kDa protein gene:ENSG00000130653 /// Homo sapiens cDNA FLJ55553 complete cds. /// Homo sapiens patatin-like phospholipase domain containing 7 (PNPLA7), transcript variant 2, mRNA. /// Homo sapiens patatin-like phospholipase domain containing 7 (PNPLA7), transcript variant 1, mRNA. 7971731 ENST00000400366 /// Isoform 3 of Copper-transporting ATPase, Cu++ ATP7B 240 ENST00000344297 /// ATPase 2 transporting, beta ENST00000242839 /// gene:ENSG00000123191 /// polypeptide ENST00000400370 /// Isoform 2 of Copper-transporting U11700 /// ATPase 2 NM_000053 /// gene:ENSG00000123191 /// NM_001005918 Isoform 1 of Copper-transporting ATPase 2 gene:ENSG00000123191 /// ATP7B protein gene:ENSG00000123191 /// Human copper transporting ATPase mRNA, complete cds. /// Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant 1, mRNA. /// Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant 2, mRNA. 8028600 ENST00000339852 /// FBA domain-containing protein non-specific cytotoxic NCCRP1 241 BC092493 /// LOC342897 cell receptor protein 1 NM_001001414 gene:ENSG00000188505 /// homolog (zebrafish) Homo sapiens similar to F-box only protein 2, mRNA (cDNA clone MGC:104713 IMAGE:30337042), complete cds. /// Homo sapiens nonspecific cytotoxic cell receptor protein 1 homolog (zebrafish) (NCCRP1), mRNA. 8155569 ENST00000407551 /// cdna:pseudogene similar to LOC100132357 242 XM_001714380 chromosome:NCBI36:9:46277008:46277218:1 hCG1656091 gene:ENSG00000216653 /// PREDICTED:Homo sapiens similar to hCG1656091 (LOC100132357), mRNA. 8039605 ENST00000342088 /// Zinc finger protein 835 zinc finger ZNF835 243 AK023017 /// gene:ENSG00000127903 /// protein 835 NM_001005850 Homo sapiens cDNA FLJ12955 fis, clone NT2RP2005496, moderately similar to ZINC FINGER PROTEIN 135. /// Homo sapiens zinc finger protein 835 (ZNF835), mRNA. 7937971 ENST00000322493 cdna:pseudogene — — 244 chromosome:NCBI36:11:4764560:4765496:1 gene:ENSG00000176951 8137925 ENST00000384168 ncrna:misc_RNA — — 245 chromosome:NCBI36:7:4817345:4817446:−1 gene:ENSG00000206895 7915408 ENST00000372572 /// Isoform 1 of Forkhead box protein forkhead box J3 FOXJ3 246 ENST00000372571 /// J3 gene:ENSG00000198815 /// ENST00000372573 /// 15 kDa protein ENST00000361346 /// gene:ENSG00000198815 /// ENST00000361776 /// Isoform 1 of Forkhead box protein BC152441 /// J3 gene:ENSG00000198815 /// NM_014947 Isoform 1 of Forkhead box protein J3 gene:ENSG00000198815 /// Isoform 2 of Forkhead box protein J3 gene:ENSG00000198815 /// Homo sapiens forkhead box J3, mRNA (cDNA clone MGC:176686 IMAGE:8862565), complete cds. /// Homo sapiens forkhead box J3 (FOXJ3), mRNA. 8014891 ENST00000394189 /// Aiolos isoform hAio-del IKAROS family zinc IKZF3 247 ENST00000377944 /// gene:ENSG00000161405 /// finger 3 (Aiolos) ENST00000348427 /// Aiolos isoform hAio-del ENST00000346872 /// gene:ENSG00000161405 /// ENST00000377958 /// Isoform 2 of Zinc finger protein ENST00000293068 /// Aiolos gene:ENSG00000161405 /// ENST00000351680 /// Isoform 5 of Zinc finger protein ENST00000350532 /// Aiolos gene:ENSG00000161405 /// ENST00000377945 /// Aiolos isoform hAio-del ENST00000346243 /// gene:ENSG00000161405 /// ENST00000377952 /// Isoform 1 of Zinc finger protein AY377981 /// Aiolos gene:ENSG00000161405 /// NM_183230 /// Isoform 3 of Zinc finger protein NM_183231 /// Aiolos gene:ENSG00000161405 /// NM_183232 /// Isoform 4 of Zinc finger protein NM_012481 /// Aiolos gene:ENSG00000161405 /// NM_183228 /// Aiolos isoform hAio-del NM_183229 gene:ENSG00000161405 /// Isoform 6 of Zinc finger protein Aiolos gene:ENSG00000161405 /// Aiolos isoform hAio-del gene:ENSG00000161405 /// Homo sapiens aiolos isoform hAio-ALT (ZNFN1A3) mRNA, complete cds, alternatively spliced. /// Homo sapiens IKAROS family zinc finger 3 (Aiolos) (IKZF3), transcript variant 4, mRNA. /// Homo sapiens IKAROS family zinc finger 3 (Aiolos) (IKZF3), transcript variant 5, mRNA. /// Homo sapiens IKAROS family zinc finger 3 (Aiolos) (IKZF3), transcript variant 6, mRNA. /// Homo sapiens IKAROS family zinc finger 3 (Aiolos) (IKZF3), transcript variant 1, mRNA. /// Homo sapiens IKAROS family zinc finger 3 (Aiolos) (IKZF3), transcript variant 2, mRNA. /// Homo sapiens IKAROS family zinc finger 3 (Aiolos) (IKZF3), transcript variant 3, mRNA. 7999406 ENST00000386866 ncrna:Mt_tRNA_pseudogene — — 248 chromosome:NCBI36:16:10722924:10722982:−1 gene:ENSG00000209601 8128087 ENST00000369451 /// gamma-aminobutyric acid gamma-aminobutyric GABRR1 249 BC130344 /// (GABA) receptor, rho 1 acid (GABA) receptor, NM_002042 gene:ENSG00000146276 /// rho 1 Homo sapiens gamma- aminobutyric acid (GABA) receptor, rho 1, mRNA (cDNA clone MGC:163216 IMAGE:40146375), complete cds. /// Homo sapiens gamma- aminobutyric acid (GABA) receptor, rho 1 (GABRR1), mRNA. 8011968 ENST00000225728 /// Mediator of RNA polymerase II mediator complex MED31 250 AF151883 /// transcription subunit 31 subunit 31 NM_016060 gene:ENSG00000108590 /// Homo sapiens CGI-125 protein mRNA, complete cds. /// Homo sapiens mediator complex subunit 31 (MED31), mRNA. 7950555 ENST00000404995 /// Leucine-rich repeat-containing leucine rich repeat LRRC32 251 ENST00000407242 /// protein 32 containing 32 ENST00000260061 /// gene:ENSG00000137507 /// BC070079 /// Leucine-rich repeat-containing NM_005512 /// protein 32 NM_001128922 gene:ENSG00000137507 /// Leucine-rich repeat-containing protein 32 gene:ENSG00000137507 /// Homo sapiens leucine rich repeat containing 32, mRNA (cDNA clone MGC:87399 IMAGE:30344529), complete cds. /// Homo sapiens leucine rich repeat containing 32 (LRRC32), transcript variant 1, mRNA. /// Homo sapiens leucine rich repeat containing 32 (LRRC32), transcript variant 2, mRNA. 8012535 ENST00000329805 /// UPF0537 transmembrane protein major facilitator MFSD6L 252 AY129026 /// gene:ENSG00000185156 /// superfamily domain NM_152599 Homo sapiens clone FP7072 containing 6-like unknown mRNA. /// Homo sapiens major facilitator superfamily domain containing 6- like (MFSD6L), mRNA. 7988767 ENST00000396402 /// Cytochrome P450 19A1 cytochrome P450, CYP19A1 253 ENST00000396404 /// gene:ENSG00000137869 /// family 19, ENST00000260433 /// Cytochrome P450 19A1 subfamily A, ENST00000405913 /// gene:ENSG00000137869 /// polypeptide 1 AK291778 /// Cytochrome P450 19A1 NM_031226 /// gene:ENSG00000137869 /// NM_000103 CYP19A1 protein gene:ENSG00000137869 /// Homo sapiens cDNA FLJ75846 complete cds, highly similar to Homo sapiens cytochrome P450, family 19, subfamily A, polypeptide 1 (CYP19A1), transcript variant 1, mRNA. /// Homo sapiens cytochrome P450, family 19, subfamily A, polypeptide 1 (CYP19A1), transcript variant 2, mRNA. /// Homo sapiens cytochrome P450, family 19, subfamily A, polypeptide 1 (CYP19A1), transcript variant 1, mRNA. 8036291 ENST00000355114 /// cDNA FLJ32728 fis, clone zinc finger ZNF565 254 ENST00000392173 /// TESTI2001049, highly similar to protein 565 ENST00000304116 /// Zinc finger protein 565 BC068453 /// gene:ENSG00000196357 /// Zinc NM_001042474 /// finger protein 565 NM_152477 gene:ENSG00000196357 /// Zinc finger protein 565 gene:ENSG00000196357 /// Homo sapiens zinc finger protein 565, mRNA (cDNA clone IMAGE:30343899). /// Homo sapiens zinc finger protein 565 8095331 ENST00000365299 ncrna:misc_RNA — — 257 chromosome:NCBI36:4:62454626:62454721:1 gene:ENSG00000202169 8180232 — — — — 258 8105040 ENST00000274276 /// Isoform 1 of Oncostatin-M specific oncostatin M receptor OSMR 259 U60805 /// receptor subunit beta NM_003999 gene:ENSG00000145623 /// Human oncostatin-M specific receptor beta subunit (OSMRB) mRNA, complete cds. /// Homo sapiens oncostatin M receptor (OSMR), mRNA. 8122684 ENST00000326669 /// SMT3 suppressor of mif two 3 SMT3 suppressor of SUMO4 261 AY340238 /// homolog 4 mif two 3 homolog 4 NM_001002255 gene:ENSG00000177688 /// (S. cerevisiae) Homo sapiens small ubiquitin-like protein 4 mRNA, complete cds. /// Homo sapiens SMT3 suppressor of mif two 3 homolog 4 (S. cerevisiae) (SUMO4), mRNA. 7940622 ENST00000306238 /// Secretoglobin family 1D member secretoglobin, family SCGB1D1 262 BC062693 /// 1 gene:ENSG00000168515 /// 1D, member 1 NM_006552 Homo sapiens secretoglobin, family 1D, member 1, mRNA (cDNA clone MGC:71958 IMAGE:30327780), complete cds. /// Homo sapiens secretoglobin, family 1D, member 1 (SCGB1D1), mRNA. 8092654 ENST00000296277 /// 60S ribosomal protein L39-like ribosomal protein L39- RPL39L 263 BC012328 /// gene:ENSG00000163923 /// like NM_052969 Homo sapiens ribosomal protein L39-like, mRNA (cDNA clone MGC:20168 IMAGE:4555759), complete cds. /// Homo sapiens ribosomal protein L39-like (RPL39L), mRNA. 7944867 ENST00000363408 ncrna:rRNA — — 264 chromosome:NCBI36:11:124011565:124011685:1 gene:ENSG00000200278 7925087 ENST00000384108 ncrna:snRNA — — 265 chromosome:NCBI36:1:231034386:231034556:−1 gene:ENSG00000206835 7985920 ENST00000341735 /// mesoderm posterior 2 homolog mesoderm posterior 2 MESP2 266 BC111413 /// gene:ENSG00000188095 /// homolog (mouse) NM_001039958 Homo sapiens mesoderm posterior 2 homolog (mouse), mRNA (cDNA clone MGC:133018 IMAGE:40004357), complete cds. /// Homo sapiens mesoderm posterior 2 homolog (mouse) (MESP2), mRNA. 7939314 ENST00000257831 /// Isoform 1 of ETS homologous ets homologous factor EHF 267 AF203977 /// factor gene:ENSG00000135373 /// NM_012153 Homo sapiens ETS-family transcription factor EHF (EHF) mRNA, complete cds. /// Homo sapiens ets homologous factor (EHF), mRNA. 7979179 ENST00000395686 /// Putative uncharacterized protein ERO1-like ERO1L 268 ENST00000359133 /// ERO1L gene:ENSG00000197930 /// (S. cerevisiae) AF081886 /// ERO1-like protein alpha NM_014584 gene:ENSG00000197930 /// Homo sapiens ERO1-like protein (ERO1-L) mRNA, complete cds. /// Homo sapiens ERO1-like (S. cerevisiae) (ERO1L), mRNA. 8123819 ENST00000379715 /// Eukaryotic translation elongation eukaryotic translation EEF1E1 269 BC005291 /// factor 1 epsilon-1 elongation factor 1 NM_004280 /// gene:ENSG00000124802 /// epsilon 1 NM_001135650 Homo sapiens eukaryotic translation elongation factor 1 epsilon 1, mRNA (cDNA clone MGC:12352 IMAGE:3685030), complete cds. /// Homo sapiens eukaryotic translation elongation factor 1 epsilon 1 (EEF1E1), 8173414 ENST00000298085 /// Cationic amino acid transporter 3 solute carrier family 7 SLC7A3 270 ENST00000374299 /// gene:ENSG00000165349 /// (cationic amino acid BC033816 /// Cationic amino acid transporter 3 transporter, y+ NM_032803 /// gene:ENSG00000165349 /// system), member 3 NM_001048164 Homo sapiens solute carrier family 7 (cationic amino acid transporter, y+ system), member 3, mRNA (cDNA clone MGC:44839 IMAGE:5206252), complete cds. /// Homo sapiens solute carrier family 7 (cationic amino acid transporter, y+ system), member 3 (SLC7A3), transcript variant 1, mRNA. /// Homo sapiens solute carrier family 7 (cationic amino acid transporter, y+ system), member 3 (SLC7A3), transcript variant 2, mRNA. 7952797 ENST00000299140 /// Spermatogenesis-associated spermatogenesis SPATA19 271 BC058039 /// protein 19, mitochondrial associated 19 NM_174927 gene:ENSG00000166118 /// Homo sapiens spermatogenesis associated 19, mRNA (cDNA clone MGC:62071 IMAGE:6619434), complete cds. /// Homo sapiens spermatogenesis associated 19 (SPATA19), mRNA. 8031387 ENST00000291890 /// Isoform 1 of Natural cytotoxicity natural cytotoxicity NCR1 272 ENST00000338835 /// triggering receptor 1 triggering receptor 1 ENST00000350790 /// gene:ENSG00000189430 /// ENST00000357397 /// Isoform 2 of Natural cytotoxicity BC064806 /// triggering receptor 1 NM_004829 gene:ENSG00000189430 /// Isoform 3 of Natural cytotoxicity triggering receptor 1 gene:ENSG00000189430 /// Isoform 5 of Natural cytotoxicity triggering receptor 1 gene:ENSG00000189430 /// Homo sapiens natural cytotoxicity triggering receptor 1, mRNA (cDNA clone MGC:65100 IMAGE:5218848), complete cds. /// Homo sapiens natural cytotoxicity triggering receptor 1 (NCR1), mRNA. 8038655 ENST00000324041 /// Kallikrein-4 kallikrein-related KLK4 273 AF113140 /// gene:ENSG00000167749 /// peptidase 4 NM_004917 Homo sapiens serine protease prostase mRNA, complete cds. /// Homo sapiens kallikrein-related peptidase 4 (KLK4), mRNA. 8074106 ENST00000252783 /// Kelch domain-containing protein kelch domain KLHDC7B 274 ENST00000395676 /// 7B gene:ENSG00000130487 /// containing 7B BC009980 /// kelch domain containing 7B NM_138433 gene:ENSG00000130487 /// Homo sapiens kelch domain containing 7B, mRNA (cDNA clone MGC:16635 IMAGE:4121528), complete cds. 8166382 ENST00000379484 /// Membrane-bound transcription membrane-bound MBTPS2 275 ENST00000365779 /// factor site-2 protease transcription factor AK292933 /// gene:ENSG00000012174 /// 36 peptidase, site 2 NM_015884 kDa protein gene:ENSG00000012174 /// Homo sapiens cDNA FLJ75833 complete cds, highly similar to Homo sapiens membrane-bound transcription factor peptidase, site 2 (MBTPS2), mRNA. /// Homo sapiens membrane-bound transcription factor peptidase, site 2 (MBTPS2), mRNA. 7965884 ENST00000307000 /// Phenylalanine-4-hydroxylase phenylalanine PAH 276 U49897 /// gene:ENSG00000171759 /// hydroxylase NM_000277 Homo sapiens phenylalanine hydroxylase (PAH) mRNA, complete cds. /// Homo sapiens phenylalanine hydroxylase (PAH), mRNA. 8103684 ENST00000261511 /// UPF0609 protein C4orf27 chromosome 4 open C4orf27 277 BC010367 /// gene:ENSG00000056050 /// reading frame 27 NM_017867 Homo sapiens chromosome 4 open reading frame 27, mRNA (cDNA clone MGC:13432 IMAGE:4334172), complete cds. /// Homo sapiens chromosome 4 open reading frame 27 (C4orf27), mRNA. 8139592 ENST00000258774 /// Checkpoint protein HUS1 HUS1 checkpoint HUS1 278 AF076844 /// gene:ENSG00000136273 /// homolog (S. pombe) NM_004507 Homo sapiens Hus1-like protein (HUS1) mRNA, complete cds. /// Homo sapiens HUS1 checkpoint homolog (S. pombe) (HUS1), mRNA. 8004957 ENST00000361801 /// dynein, axonemal, heavy chain 9 dynein, axonemal, DNAH9 279 ENST00000262442 /// isoform 1 heavy chain 9 ENST00000396001 /// gene:ENSG00000007174 /// AJ404468 /// Isoform 1 of Dynein heavy chain NM_001372 /// 9, axonemal NM_004662 gene:ENSG00000007174 /// dynein, axonemal, heavy chain 9 isoform 1 gene:ENSG00000007174 /// Homo sapiens mRNA for dynein heavy chain 9 (DNAH9 gene). /// Homo sapiens dynein, axonemal, heavy chain 9 (DNAH9), transcript variant 2, mRNA. /// Homo sapiens dynein, axonemal, heavy chain 9 (DNAH9), transcript variant 1, mRNA. 8130553 AK130765 Homo sapiens cDNA FLJ27255 hypothetical FLJ27255 280 fis, clone SYN09519. LOC401281 8094830 ENST00000264452 /// Transmembrane protein 33 transmembrane protein TMEM33 281 AY659966 /// gene:ENSG00000109133 /// 33 NM_018126 Homo sapiens SHINC3 (SHINC3) mRNA, complete cds. /// Homo sapiens transmembrane protein 33 (TMEM33), mRNA. 8149438 ENST00000329135 /// Zeta-sarcoglycan sarcoglycan zeta SGCZ 282 ENST00000382080 /// gene:ENSG00000185053 /// AY028700 /// sarcoglycan zeta NM_139167 gene:ENSG00000185053 /// Homo sapiens zeta-sarcoglycan mRNA, complete cds. /// Homo sapiens sarcoglycan zeta (SGCZ), mRNA. 8180029 ENST00000399426 /// Major histocompatibility complex, major HLA-DQB2 283 ENST00000399424 /// class II, DQ beta 2 histocompatibility ENST00000399427 /// gene:ENSG00000215008 /// complex, class II, DQ ENST00000383099 /// Major histocompatibility complex, beta 2 ENST00000383245 /// class II, DQ beta 2 ENST00000323109 /// gene:ENSG00000215008 /// ENST00000399658 /// Major histocompatibility complex, ENST00000399661 /// class II, DQ beta 2 ENST00000323143 /// gene:ENSG00000215008 /// ENST00000399053 /// Major histocompatibility complex, ENST00000374931 /// class II, DQ beta 2 ENST00000374934 /// gene:ENSG00000215008 /// AK098007 /// Major histocompatibility complex, NR_003937 class II, DQ beta 2 gene:ENSG00000196610 /// Major histocompatibility complex, class II, DQ beta 2 gene:ENSG00000196610 /// Major histocompatibility complex, class II, DQ beta 2 gene:ENSG00000196610 /// cdna:known chromosome:NCBI36:c6_QBL:32795451:32802909:−1 gene:ENSG00000196610 /// Major histocompatibility complex, class II, DQ beta 2 gene:ENSG00000204275 /// Major histocompatibility complex, class II, DQ beta 2 gene:ENSG00000204275 /// Major histocompatibility complex, class II, DQ beta 2 gene:ENSG00000204275 /// Major histocompatibility complex, class II, DQ beta 2 gene:ENSG00000204275 /// Homo sapiens cDNA FLJ40688 fis, clone THYMU2024185, highly similar to HLA class II histocompatibility antigen, DX beta chain precursor. /// Homo sapiens major histocompatibility complex, class II, DQ beta2 (HLA- DQB2), non-coding RNA. 8015060 ENST00000264651 /// Keratin, type I cytoskeletal 24 keratin 24 KRT24 284 AK000268 /// gene:ENSG00000167916 /// NM_019016 Homo sapiens cDNA FLJ20261 fis, clone COLF7630. /// Homo sapiens keratin 24 (KRT24), mRNA. 8066384 ENST00000373005 /// gametocyte specific factor 1-like gametocyte specific GTSF1L 285 ENST00000373003 /// isoform 2 factor 1-like BC040049 /// gene:ENSG00000124196 /// NM_176791 /// Gametocyte-specific factor 1-like NM_001008901 gene:ENSG00000124196 /// Homo sapiens gametocyte specific factor 1-like, mRNA (cDNA clone MGC:50820 8001197 ENST00000303155 /// Isoform 1 of Neuropilin and tolloid- neuropilin (NRP) and NETO2 286 AY358718 /// like protein 2 tolloid (TLL)-like 2 NM_018092 gene:ENSG00000171208 /// Homo sapiens clone DNA84912 Neto2 (UNQ1926) mRNA, complete cds. /// Homo sapiens neuropilin (NRP) and tolloid (TLL)- like 2 (NETO2), mRNA. 8177195 ENST00000253323 /// Putative transcript Y 9 protein testis-specific TTTY9A /// 287 ENST00000253325 /// gene:ENSG00000131007 /// transcript, TTTY9B AF332238 /// Putative transcript Y 9 protein Y-linked 9A /// NR_001530 /// gene:ENSG00000131009 /// testis-specific NR_002159 Homo sapiens testis transcript Y 9 transcript, (TTY9) mRNA, complete cds. /// Y-linked 9B Homo sapiens testis-specific transcript, Y-linked 9A (TTTY9A), non-coding RNA. /// Homo sapiens testis-specific transcript, Y-linked 9B (TTTY9B), non- coding RNA. 8008885 hsa-mir-21 /// MI0000077 Homo sapiens miR-21 microRNA 21 MIR21 288 hsa-mir-21 /// stem-loop /// MI0000077 Homo sapiens AY699265 miR-21 stem-loop /// Homo sapiens microRNA pri-miR- 21, complete sequence. 8176692 ENST00000253323 /// Putative transcript Y 9 protein testis-specific TTTY9A /// 289 ENST00000253325 /// gene:ENSG00000131007 /// transcript, TTTY9B AF332238 /// Putative transcript Y 9 protein Y-linked 9A /// NR_001530 /// gene:ENSG00000131009 /// testis-specific NR_002159 Homo sapiens testis transcript Y 9 transcript, (TTY9) mRNA, complete cds. /// Y-linked 9B Homo sapiens testis-specific transcript, Y-linked 9A (TTTY9A), non-coding RNA. /// Homo sapiens testis-specific transcript, Y-linked 9B (TTTY9B), non- coding RNA. 8056959 ENST00000308618 /// Homeobox even-skipped even-skipped EVX2 290 NM_001080458 homolog protein 2 homeobox 2 gene:ENSG00000174279 /// Homo sapiens even-skipped homeobox 2 (EVX2), mRNA. 7974562 ENST00000363948 ncrna:snRNA — — 291 chromosome:NCBI36:14:56361457:56361563:1 gene:ENSG00000200818 8136557 ENST00000336425 /// thromboxane A synthase 1 thromboxane A TBXAS1 292 ENST00000263552 /// isoform TXS-I synthase 1 (platelet) BC014117 /// gene:ENSG00000059377 /// NM_001130966 /// thromboxane A synthase 1 NM_001061 /// isoform TXS-II NM_030984 gene:ENSG00000059377 /// Homo sapiens thromboxane A synthase 1 (platelet), mRNA (cDNA clone MGC:20885 IMAGE:4548935), complete cds. /// Homo sapiens thromboxane A synthase 1 (platelet) (TBXAS1), transcript variant TXS-III, mRNA. /// Homo sapiens thromboxane A 7936968 ENST00000368679 /// Isoform 1 of ADAM 12 ADAM ADAM12 293 ENST00000368683 /// gene:ENSG00000148848 /// metallopeptidase ENST00000368676 /// Isoform 4 of ADAM 12 domain 12 AF023476 /// gene:ENSG00000148848 /// NM_003474 /// Isoform 2 of ADAM 12 NM_021641 gene:ENSG00000148848 /// Homo sapiens meltrin-L precursor (ADAM12) mRNA, complete cds, alternatively spliced. /// Homo sapiens ADAM metallopeptidase domain 12 (ADAM12), transcript variant 1, mRNA. /// Homo sapiens ADAM metallopeptidase domain 12 (ADAM12), transcript variant 2, mRNA. 8019478 ENST00000312648 /// T-cell antigen CD7 CD7 molecule CD7 294 AY935535 /// gene:ENSG00000173762 /// NM_006137 Homo sapiens clone 14 CD7 antigen mRNA, complete cds. /// Homo sapiens CD7 molecule (CD7), mRNA. 8073799 ENST00000252934 /// Ataxin-10 ataxin 10 ATXN10 295 ENST00000396011 /// gene:ENSG00000130638 /// ENST00000381061 /// HUMEEP ENST00000402380 /// gene:ENSG00000130638 /// BC007508 /// Putative uncharacterized protein NM_013236 ATXN10 gene:ENSG00000130638 /// Ataxin 10 gene:ENSG00000130638 /// Homo sapiens ataxin 10, mRNA (cDNA clone MGC:4152 IMAGE:3030062), complete cds. /// Homo sapiens ataxin 10 (ATXN10), mRNA. 8035789 ENST00000358224 /// Zinc finger protein 826 zinc finger ZNF826 296 BC016785 /// gene:ENSG00000178604 /// protein 826 NM_001039884 Homo sapiens zinc finger protein 826, mRNA (cDNA clone IMAGE:4096414), complete cds. /// Homo sapiens zinc finger protein 826 (ZNF826), mRNA. 7951485 ENST00000265836 /// Isoform 1 of Solute carrier family solute carrier SLC35F2 297 ENST00000375682 /// 35 member F2 family 35, AK128062 /// gene:ENSG00000110660 /// member F2 NM_017515 Putative uncharacterized protein SLC35F2 (Fragment) gene:ENSG00000110660 /// Homo sapiens cDNA FLJ46182 fis, clone TESTI4004539. /// Homo sapiens solute carrier family 35, member F2 (SLC35F2), mRNA. 8114805 ENST00000359370 /// Heparin-binding growth factor 1 fibroblast growth FGF1 298 ENST00000378046 /// gene:ENSG00000113578 /// factor 1 (acidic) ENST00000337706 /// Heparin-binding growth factor 1 ENST00000360966 /// gene:ENSG00000113578 /// ENST0000040 Heparin-binding growth factor 1 gene:ENSG00000113578 /// fibroblast growth factor 1 (acidic) isoform 2 precursor gene:ENSG00000113578 /// 8095680 ENST00000401931 /// 11 kDa protein interleukin 8 IL8 299 ENST00000307407 /// gene:ENSG00000169429 /// ENST00000395775 /// Isoform 1 of lnterleukin-8 M17017 /// gene:ENSG00000169429 /// 15 NM_000584 kDa protein gene:ENSG00000169429 /// Human beta-thromboglobulin-like protein mRNA, complete cds. /// Homo sapiens interleukin 8 (IL8), mRNA. 8017827 ENST00000364677 ncrna:misc_RNA — — 300 chromosome:NCBI36:17:62835352:62835459:−1 gene:ENSG00000201547 8083034 ENST00000332210 /// Calsyntenin-2 calsyntenin 2 CLSTN2 301 AY753303 /// gene:ENSG00000158258 /// NM_022131 Homo sapiens alcadein gamma mRNA, complete cds. /// Homo sapiens calsyntenin 2 (CLSTN2), mRNA. 8131140 ENST00000313156 /// FLJ00049 protein (Fragment) FLJ00049 protein FLJ00049 302 AK024457 gene:ENSG00000175873 /// Homo sapiens mRNA for FLJ00049 protein, partial cds. 7977003 ENST00000262241 /// REST corepressor 1 REST corepressor 1 RCOR1 303 AF155595 /// gene:ENSG00000089902 /// NM_015156 Homo sapiens CoREST protein (COREST) mRNA, complete cds. /// Homo sapiens REST corepressor 1 (RCOR1), mRNA. 8144774 ENST00000324815 /// Isoform 3 of Vacuolar protein vacuolar protein VPS37A 304 ENST00000324849 /// sorting-associated protein 37A sorting BC067754 /// gene:ENSG00000155975 /// 37 homolog A NM_152415 Isoform 1 of Vacuolar protein (S. cerevisiae) sorting-associated protein 37A gene:ENSG00000155975 /// Homo sapiens vacuolar protein sorting 37 homolog A (S. cerevisiae), mRNA (cDNA clone MGC:87029 IMAGE:5275060), 8172266 hsa-mir-221 /// MI0000298 Homo sapiens miR- — — 305 hsa-mir-221 221 stem-loop /// MI0000298 Homo sapiens miR-221 stem-loop 8091186 — — — — 306 8076298 ENST00000386767 ncrna:scRNA_pseudogene — — 307 chromosome:NCBI36:22:39776868:39776953:−1 gene:ENSG00000209502 8094704 ENST00000295963 /// Isoform 2 of Ubiquitin-conjugating ubiquitin-conjugating UBE2K 308 ENST00000261427 /// enzyme E2 K enzyme E2K (UBC1 U58522 /// gene:ENSG00000078140 /// homolog, yeast) NM_001111112 /// Isoform 1 of Ubiquitin-conjugating NM_001111113 /// enzyme E2 K NM_005339 gene:ENSG00000078140 /// Human huntingtin interacting protein (HIP2) mRNA, complete cds. /// Homo sapiens ubiquitin- conjugating enzyme E2K (UBC1 homolog, yeast) (UBE2K), transcript variant 2, mRNA. /// Homo sapiens ubiquitin- conjugating enzyme E2K (UBC1 homolog, yeast) (UBE2K), transcript variant 3, mRNA. /// Homo sapiens ubiquitin- conjugating enzyme E2K (UBC1 homolog, yeast) (UBE2K), transcript variant 1, mRNA. 8089329 ENST00000273353 /// Myosin-15 myosin, heavy MYH15 309 AK126801 /// gene:ENSG00000144821 /// chain 15 NM_014981 Homo sapiens cDNA FLJ44851 fis, clone BRACE3051819, moderately similar to Myosin heavy chain, cardiac muscle alpha isoform. /// Homo sapiens myosin, heavy chain 15 (MYH15), mRNA. 8116548 ENST00000344450 /// Isoform 1 of Dual specificity dual specificity DUSP22 310 BC022847 /// protein phosphatase 22 phosphatase 22 NM_020185 gene:ENSG00000112679 /// Homo sapiens dual specificity phosphatase 22, mRNA (cDNA clone MGC:15090 IMAGE:3942055), complete cds. /// Homo sapiens dual specificity phosphatase 22 (DUSP22), mRNA. 7903294 ENST00000370152 /// Hippocampus abundant transcript hippocampus abundant HIAT1 311 AK057172 /// 1 protein transcript 1 NM_033055 gene:ENSG00000156875 /// Homo sapiens cDNA FLJ32610 fis, clone STOMA2000055, highly similar to Mouse mRNA for tetracycline transporter-like protein. /// Homo sapiens hippocampus abundant transcript 1 (HIAT1), mRNA. 7977567 ENST00000344581 /// similar to hCG2036672 kelch-like 33 KLHL33 312 BC146951 gene:ENSG00000185271 /// (Drosophila) Homo sapiens kelch-like 33 (Drosophila), mRNA (cDNA clone 7902685 ENST00000411322 ncrna:misc_RNA — — 313 chromosome:NCBI36:1:85502567:85502673:1 gene:ENSG00000223254 8137219 ENST00000343855 /// Uncharacterized protein C7orf29 chromosome 7 open C7orf29 314 AL832660 /// gene:ENSG00000188707 /// reading frame 29 NM_138434 Homo sapiens mRNA; cDNA DKFZp313D2012 (from clone DKFZp313D2012). /// Homo sapiens chromosome 7 open reading frame 29 (C7orf29), mRNA. 7927153 ENST00000387115 /// ncrna:snRNA_pseudogene — — 315 ENST00000408541 chromosome:NCBI36:10:43157240:43157363:1 gene:ENSG00000209850 /// ncrna:snRNA chromosome:NCBI36:10:43157240:43157364:1 gene:ENSG00000221468 7919572 ENST00000386002 ncrna:tRNA_pseudogene — — 316 chromosome:NCBI36:1:147478572:147478645:−1 gene:ENSG00000208737 8073544 hsa-mir-33a /// MI0000091 Homo sapiens miR- — — 317 hsa-mir-33a 33a stem-loop /// MI0000091 Homo sapiens miR-33a stem-loop 8090091 ENST00000383657 /// Protein-tyrosine phosphatase-like protein tyrosine PTPLB 318 BC049369 /// member B phosphatase-like NM_198402 gene:ENSG00000206527 /// (proline instead of Homo sapiens protein tyrosine catalytic arginine), phosphatase-like (proline instead member b of catalytic arginine), member b, mRNA (cDNA clone MGC:57203 IMAGE:5286864), complete cds. /// Homo sapiens protein tyrosine phosphatase-like (proline instead of catalytic arginine), member b (PTPLB), mRNA. 8045889 ENST00000263635 /// Isoform 1 of Protein TANC1 tetratricopeptide TANC1 319 AK128859 /// gene:ENSG00000115183 /// repeat, ankyrin repeat NM_033394 Homo sapiens cDNA FLJ46667 and coiled-coil fis, clone TRACH3007689. /// containing 1 Homo sapiens tetratricopeptide repeat, ankyrin repeat and coiled- coil containing 1 (TANC1), mRNA. 7974689 ENST00000395151 /// 60 kDa protein dapper, antagonist of DACT1 320 ENST00000335867 /// gene:ENSG00000165617 /// beta-catenin, homolog ENST00000395153 /// Dapper homolog 1 1 (Xenopus laevis) AF251079 /// gene:ENSG00000165617 /// NM_001079520 /// dapper 1 isoform 2 NM_016651 gene:ENSG00000165617 /// Homo sapiens heptacellular carcinoma novel gene-3 protein mRNA, complete cds. /// Homo sapiens dapper, antagonist of beta-catenin, homolog 1 (Xenopus laevis) (DACT1), transcript variant 2, mRNA. /// Homo sapiens dapper, antagonist of beta-catenin, homolog 1 (Xenopus laevis) (DACT1), transcript variant 1, mRNA. 8160040 ENST00000346816 /// Isoform 3 of Receptor-type protein tyrosine PTPRD 321 ENST00000381196 /// tyrosine-protein phosphatase phosphatase, receptor ENST00000356435 /// delta gene:ENSG00000153707 /// type, D ENST00000358503 /// Isoform 1 of Receptor-type ENST00000360074 /// tyrosine-protein phosphatase ENST00000397617 /// delta gene:ENSG00000153707 /// ENST00000397611 /// Isoform 1 of Receptor-type ENST00000355233 /// tyrosine-protein phosphatase ENST00000397606 /// delta gene:ENSG00000153707 /// AB211400 /// 214 kDa protein NM_130393 /// gene:ENSG00000153707 /// NM_130392 /// Protein tyrosine phosphatase NM_130391 /// receptor type D NM_002839 /// gene:ENSG00000153707 /// 215 NM_001040712 kDa protein gene:ENSG00000153707 /// 170 kDa protein gene:ENSG00000153707 /// PTPRD protein gene:ENSG00000153707 /// PTPRD protein gene:ENSG00000153707 /// Homo sapiens PTPRD mRNA for protein tyrosine phosphatase receptor type D, complete cds. /// Homo sapiens protein tyrosine phosphatase, receptor type, D (PTPRD), transcript variant 4, mRNA. /// Homo sapiens protein tyrosine phosphatase, receptor type, D (PTPRD), transcript variant 3, mRNA. /// Homo sapiens protein tyrosine phosphatase, receptor type, D (PTPRD), transcript variant 2, mRNA. /// Homo sapiens protein tyrosine phosphatase, receptor type, D (PTPRD), transcript variant 1, mRNA. /// Homo sapiens protein tyrosine phosphatase, receptor type, D (PTPRD), transcript variant 5, mRNA. 8142878 AF503918 Homo sapiens CDC26 subunit of cell division cycle 26 CDC26 322 anaphase promoting complex homolog (CDC26) mRNA, complete cds. (S. cerevisiae) 8065603 BC101556 /// Homo sapiens TSPY-like 3 TSPY-like 3 TSPYL3 323 NR_002781 (pseudogene), mRNA (cDNA (pseudogene) clone MGC:126605 IMAGE:8069062), complete cds. /// Homo sapiens TSPY-like 3 (pseudogene) (TSPYL3), non- coding RNA. 8104781 ENST00000330120 /// Relaxin-3 receptor 1 relaxin/insulin-like RXFP3 324 D88437 /// gene:ENSG00000182631 /// family peptide NM_016568 Homo sapiens mRNA for G- receptor 3 protein coupled receptor SALPR, complete cds. /// Homo sapiens relaxin/insulin-like family peptide receptor 3 (RXFP3), mRNA. 7959012 ENST00000410526 /// ncrna:misc_RNA — — 325 ENST00000386460 chromosome:NCBI36:12:114639906:114640199:1 gene:ENSG00000222458 /// ncrna:scRNA_pseudogene chromosome:NCBI36:12:114639907:114640200:1 gene:ENSG00000209195 7954692 ENST00000313737 /// Putative uncharacterized protein hypothetical protein FLJ13224 326 AK023286 FLJ13224 FLJ13224 gene:ENSG00000177340 /// Homo sapiens cDNA FLJ13224 fis, clone OVARC1000008. 7951038 AK128061 /// Homo sapiens cDNA FLJ46181 TATA box binding TAF1D /// 327 NR_002973 fis, clone TESTI4004210. /// protein (TBP)- SNORA40 Homo sapiens small nucleolar associated factor, RNA RNA, H/ACA box 40 (SNORA40), polymerase I, non-coding RNA. D, 41 kDa /// small nucleolar RNA, H/ACA box 40 8169984 ENST00000370796 /// Putative uncharacterized protein hypoxanthine HPRT1 328 ENST00000298556 /// HPRT1 gene:ENSG00000165704 /// phosphoribosyl- M31642 /// Hypoxanthine-guanine transferase 1 NM_000194 phosphoribosyltransferase gene:ENSG00000165704 /// Homo sapiens hypoxanthine phosphoribosyltransferase 1 (HPRT1) mRNA, complete cds. /// Homo sapiens hypoxanthine phosphoribosyltransferase 1 (HPRT1), mRNA. 7933204 ENST00000298295 /// Protein DEPP chromosome 10 open C10orf10 329 AB022718 /// gene:ENSG00000165507 /// reading frame 10 NM_007021 Homo sapiens mRNA for DEPP (decidual protein induced by progesterone), complete cds. /// Homo sapiens chromosome 10 open reading frame 10 (C10orf10), mRNA. 7953747 ENST00000364910 ncrna:snRNA — — 330 chromosome:NCBI36:12:8528609:8528715:1 gene:ENSG00000201780 8175256 uc004exm.1 /// /// cdna:Genscan hypothetical protein MGC16121 331 GENSCAN00000003290 /// chromosome:NCBI36:X:133504408:133568038:−1 /// MGC16121 BC007360 /// Homo sapiens hypothetical protein XM_001715787 /// MGC16121, mRNA (cDNA clone XM_001128419 /// IMAGE:3627113), complete cds. /// XM_001715872 PREDICTED: Homo sapiens hypothetical protein MGC16121 (MGC16121), mRNA. /// PREDICTED: Homo sapiens hypothetical protein MGC16121 (MGC16121), mRNA. /// PREDICTED: Homo sapiens hypothetical protein MGC16121 (MGC16121), mRNA. 8180344 — — — — 332 8013517 ENST00000387217 ncrna:Mt_tRNA_pseudogene — — 333 chromosome:NCBI36:17:21942958:21943026:−1 gene:ENSG00000209952 8155802 ENST00000376993 /// Guanine deaminase guanine deaminase GDA 334 ENST00000376989 /// gene:ENSG00000119125 /// ENST00000358399 /// Guanine deaminase ENST00000238018 /// gene:ENSG00000119125 /// AF019638 /// Guanine aminohydrolase NM_004293 gene:ENSG00000119125 /// cDNA FLJ60569, highly similar to Guanine deaminase gene:ENSG00000119125 /// Homo sapiens nedasin s-form mRNA, complete cds. /// Homo sapiens guanine deaminase (GDA), mRNA. 8114468 NR_002913 Homo sapiens small nucleolar small nucleolar RNA, SNORD63 335 RNA, C/D box 63 (SNORD63), C/D box 63 non-coding RNA. 8140398 ENST00000307630 /// 14-3-3 protein gamma tyrosine 3- YWHAG 336 BC020963 /// gene:ENSG00000170027 /// monooxygenase/ NM_012479 Homo sapiens tyrosine 3- tryptophan 5- monooxygenase/tryptophan 5- monooxygenase monooxygenase activation activation protein, protein, gamma polypeptide, gamma polypeptide mRNA (cDNA clone MGC:8908 IMAGE:3915246), complete cds. /// Homo sapiens tyrosine 3- monooxygenase/tryptophan 5- monooxygenase activation protein, gamma polypeptide (YWHAG), mRNA. 7982000 NR_003340 Homo sapiens small nucleolar small nuclear SNRPN /// 337 RNA, C/D box 116-26 ribonucleoprotein SNORD11 (SNORD116-26), non-coding polypeptide N /// small 6-26 RNA. nucleolar RNA, C/D box 116-26 8141150 ENST00000394309 /// Asparagine synthetase asparagine synthetase ASNS 338 ENST00000175506 /// [glutamine-hydrolyzing] ENST00000394308 /// gene:ENSG00000070669 /// BC008723 /// Asparagine synthetase NM_133436 /// [glutamine-hydrolyzing] NM_001673 /// gene:ENSG00000070669 /// NM_183356 Asparagine synthetase [glutamine-hydrolyzing] gene:ENSG00000070669 /// Homo sapiens asparagine synthetase, mRNA (cDNA clone MGC:8639 IMAGE:2961551), complete cds. /// Homo sapiens asparagine synthetase (ASNS), transcript variant 1, mRNA. /// Homo sapiens asparagine synthetase (ASNS), transcript variant 2, mRNA. /// Homo sapiens asparagine synthetase (ASNS), transcript variant 3, mRNA. 8055265 ENST00000385636 ncrna:Mt_tRNA_pseudogene — — 339 chromosome:NCBI36:2:131846208:131846265:−1 gene:ENSG00000208371 8105607 ENST00000389074 UPF0514 membrane protein — — 340 FAM159B gene:ENSG00000145642 8099130 ENST00000363891 ncrna:misc_RNA — — 341 chromosome:NCBI36:4:4973381:4973692:−1 gene:ENSG00000200761 8015456 ENST00000319121 /// Kelch-like protein 11 kelch-like 11 KLHL11 342 BC034470 /// gene:ENSG00000178502 /// (Drosophila) NM_018143 Homo sapiens kelch-like 11 (Drosophila), mRNA (cDNA clone MGC:26174 IMAGE:4822768), complete cds. /// Homo sapiens kelch-like 11 (Drosophila) (KLHL11), mRNA. 8028332 ENST00000263372 /// Isoform 1 of Potassium channel potassium channel, KCNK6 343 AF117708 /// subfamily K member 6 subfamily K, NM_004823 gene:ENSG00000099337 /// member 6 Homo sapiens tandem pore domain potassium channel TWIK- 2 (KCNK6) mRNA, complete cds. /// Homo sapiens potassium channel, subfamily K, member 6 (KCNK6), mRNA. 7947147 ENST00000354193 /// Small VCP/p97-interacting protein small VCP/p97- SVIP 344 AL833119 /// gene:ENSG00000198168 /// interacting protein NM_148893 Homo sapiens mRNA; cDNA DKFZp313A2432 (from clone DKFZp313A2432). /// Homo sapiens small VCP/p97- interacting protein (SVIP), mRNA. 7961198 ENST00000023165 /// killer cell lectin-like receptor killer cell KLRA1 345 ENST00000341141 /// subfamily A, member 1 lectin-like AK296103 /// gene:ENSG00000021602 /// receptor NM_006611 KLRA1 gene:ENSG00000021602 /// subfamily A, Homo sapiens cDNA FLJ59270 member 1 complete cds, highly similar to Homo sapiens killer cell lectin-like receptor subfamily A, member 1 (KLRA1), mRNA. /// Homo sapiens killer cell lectin-like receptor subfamily A, member 1 (KLRA1), mRNA. 7957008 ENST00000266679 /// Isoform 2 of Cleavage and cleavage and CPSF6 346 ENST00000351671 /// polyadenylation specificity factor polyadenylation BC000714 /// subunit 6 specific NM_007007 gene:ENSG00000111605 /// factor 6, 68 kDa Isoform 1 of Cleavage and polyadenylation specificity factor subunit 6 gene:ENSG00000111605 /// Homo sapiens cleavage and polyadenylation specific factor 6, 68 kDa, mRNA (cDNA clone MGC:1242 IMAGE:3506481), complete cds. /// Homo sapiens cleavage and polyadenylation specific factor 6, 68 kDa (CPSF6), mRNA. 8046790 ENST00000384449 ncrna:snRNA — — 347 chromosome:NCBI36:2:183446814:183446920:1 gene:ENSG00000207178 8049375 ENST00000389758 /// similar to hCG2012694 — — 348 ENST00000396517 /// gene:ENSG00000185038 /// ENST00000327506 similar to hCG2012694 gene:ENSG00000185038 /// similar to hCG2012694 gene:ENSG00000185038 8122732 GENSCAN00000041083 /// cdna:Genscan — — 349 ENST00000309074 chromosome:NCBI36:6:150340754:150341242:1 /// cdna:pseudogene chromosome:NCBI36:6:150340754:150341242:1 gene:ENSG00000173909 7907024 ENST00000367876 /// Pogo transposable element with pogo transposable POGK 350 ENST00000367875 /// KRAB domain element with KRAB AB040946 /// gene:ENSG00000143157 /// domain NM_017542 Pogo transposable element with KRAB domain gene:ENSG00000143157 /// Homo sapiens mRNA for KIAA1513 protein, partial cds. /// Homo sapiens pogo transposable element with KRAB domain (POGK), mRNA. 8161774 ENST00000376870 /// Isoform M6-kinase 3 of Transient transient receptor TRPM6 351 ENST00000360774 /// receptor potential cation channel potential cation ENST00000361255 /// subfamily M member 6 channel, subfamily M, ENST00000376872 /// gene:ENSG00000119121 /// member 6 ENST00000376871 /// Isoform TRPM6a of Transient ENST00000376864 /// receptor potential cation channel ENST00000312449 /// subfamily M member 6 ENST00000359047 /// gene:ENSG00000119121 /// AF350881 /// Putative uncharacterized protein NM_017662 TRPM6 gene:ENSG00000119121 /// Isoform M6-kinase 1 of Transient receptor potential cation channel subfamily M member 6 gene:ENSG00000119121 /// Isoform M6-kinase 2 of Transient receptor potential cation channel subfamily M member 6 gene:ENSG00000119121 /// Isoform TRPM6t of Transient receptor potential cation channel subfamily M member 6 gene:ENSG00000119121 /// Isoform TRPM6t of Transient receptor potential cation channel subfamily M member 6 gene:ENSG00000119121 /// Transient receptor potential cation channel, subfamily M, member 6, isoform CRAJ gene:ENSG00000119121 /// Homo sapiens channel kinase 2 (CHAK2) mRNA, complete cds. /// Homo sapiens transient receptor potential cation channel, subfamily M, member 6 (TRPM6), mRNA. 8157144 ENST00000322940 /// UPF0436 protein C9orf6 chromosome 9 open C9orf6 352 ENST00000374621 /// gene:ENSG00000119328 /// reading frame 6 ENST00000374624 /// Putative uncharacterized protein BC015795 /// C9orf6 (Fragment) NM_017832 gene:ENSG00000119328 /// 13 kDa protein gene:ENSG00000119328 /// Homo sapiens chromosome 9 open reading frame 6, mRNA (cDNA clone MGC:8859 IMAGE:3910513), complete cds. /// Homo sapiens chromosome 9 open reading frame 6 (C9orf6), mRNA. 8018377 ENST00000411285 /// ncrna:snRNA — — 353 ENST00000388598 chromosome:NCBI36:17:70916762:70916860:−1 gene:ENSG00000223217 /// ncrna:snRNA_pseudogene chromosome:NCBI36:17:70916768:70916864:−1 gene:ENSG00000211333 8146564 ENST00000262646 /// Ras-related protein Rab-2A RAB2A, member RAS RAB2A 354 ENST00000396697 /// gene:ENSG00000104388 /// 24 oncogene family ENST00000396696 /// kDa protein BC008929 /// gene:ENSG00000104388 /// NM_002865 Putative uncharacterized protein RAB2A gene:ENSG00000104388 /// Homo sapiens RAB2A, member RAS oncogene family, mRNA (cDNA clone MGC:1656 IMAGE:2966694), complete cds. /// Homo sapiens RAB2A, member RAS oncogene family (RAB2A), mRNA. 7957298 ENST00000266692 /// Isoform 3 of Neuron navigator 3 neuron navigator 3 NAV3 355 ENST00000228327 /// gene:ENSG00000067798 /// ENST00000397909 /// Isoform 1 of Neuron navigator 3 ENST00000378640 /// gene:ENSG00000067798 /// BC017667 /// Isoform 2 of Neuron navigator 3 NM_014903 gene:ENSG00000067798 /// 253 kDa protein gene:ENSG00000067798 /// Homo sapiens neuron navigator 3, mRNA (cDNA clone IMAGE:3914378), partial cds. /// Homo sapiens neuron navigator 3 (NAV3), mRNA. 8091118 — — — — 356 8107909 ENST00000200652 /// Solute carrier family 22 member 4 solute carrier SLC22A4 357 BC028313 /// gene:ENSG00000197208 /// family 22 NM_003059 Homo sapiens solute carrier (organic family 22 (organic cation/ergothioneine cation/ergothioneine transporter), transporter), member 4 member 4, mRNA (cDNA clone MGC:34546 IMAGE:5186192), complete cds. /// Homo sapiens solute carrier family 22 (organic cation/ergothioneine transporter), member 4 (SLC22A4), mRNA. 8101723 ENST00000323061 /// Nucleosome assembly protein 1- nucleosome assembly NAP1L5 358 BC104883 /// like 5 gene:ENSG00000177432 /// protein 1-like 5 NM_153757 Homo sapiens nucleosome assembly protein 1-like 5, mRNA (cDNA clone MGC:132543 IMAGE:8143886), complete cds. /// Homo sapiens nucleosome assembly protein 1-like 5 (NAP1L5), mRNA. 8053311 ENST00000363618 ncrna:misc_RNA — — 359 chromosome:NCBI36:2:76525713:76526044:−1 gene:ENSG00000200488 8054364 ENST00000393359 /// Transforming growth factor-beta transforming growth TGFBRAP1 360 ENST00000258449 /// receptor-associated protein 1 factor, beta receptor BC020548 /// gene:ENSG00000135966 /// associated protein 1 NM_004257 Transforming growth factor-beta receptor-associated protein 1 gene:ENSG00000135966 /// Homo sapiens transforming growth factor, beta receptor associated protein 1, mRNA (cDNA clone MGC:21319 IMAGE:4420120), complete cds. /// Homo sapiens transforming growth factor, beta receptor associated protein 1 (TGFBRAP1), mRNA. 7938295 ENST00000314138 /// 60S ribosomal protein L27a ribosomal protein RPL27A 361 NM_000990 gene:ENSG00000166441 /// L27a Homo sapiens ribosomal protein L27a (RPL27A), mRNA. 7995267 ENST00000315486 /// Isoform 1 of TP53-target gene 3 TP53 target 3 /// TP53TG3 /// 362 ENST00000341305 /// protein gene:ENSG00000180598 /// similar LOC729355 ENST00000398682 /// Isoform 2 of TP53-target gene 3 to TP53TG3 protein ENST00000354614 /// protein gene:ENSG00000180598 /// ENST00000398680 /// Isoform 2 of TP53-target gene 3 ENST00000398667 /// protein gene:ENSG00000183632 /// ENST00000398666 /// Isoform 3 of TP53-target gene 3 ENST00000360260 /// protein gene:ENSG00000183632 /// ENST00000398664 /// Isoform 1 of TP53-target gene 3 ENST00000380147 /// protein gene:ENSG00000183632 /// ENST00000380148 /// Isoform 2 of TP53-target gene 3 AB023508 /// protein gene:ENSG00000205457 /// NM_016212 /// Isoform 1 of TP53-target gene 3 NM_001099687 protein gene:ENSG00000205457 /// Isoform 3 of TP53-target gene 3 protein gene:ENSG00000205457 /// Isoform 2 of TP53-target gene 3 protein gene:ENSG00000205456 /// Isoform 1 of TP53-target gene 3 protein gene:ENSG00000205456 /// Isoform 3 of TP53-target gene 3 protein gene:ENSG00000205456 /// Homo sapiens mRNA for TP53TG3b, complete cds. /// Homo sapiens TP53 target 3 (TP53TG3), mRNA. /// Homo sapiens similar to TP53TG3 protein (LOC729355), mRNA. 8032465 ENST00000300961 /// Junctional sarcoplasmic reticulum junctional JSRP1 363 BC021201 /// protein 1 sarcoplasmic NM_144616 gene:ENSG00000167476 /// reticulum protein 1 Homo sapiens junctional sarcoplasmic reticulum protein 1, mRNA (cDNA clone MGC:13120 IMAGE:4106867), complete cds. /// Homo sapiens junctional sarcoplasmic reticulum protein 1 (JSRP1), mRNA. 8167953 ENST00000411174 /// ncrna:misc_RNA — — 364 ENST00000388411 chromosome:NCBI36:X:63347296:63347591:1 gene:ENSG00000223106 /// ncrna:scRNA_pseudogene chromosome:NCBI36:X:63347296:63347593:1 gene:ENSG00000211146 8102643 ENST00000274026 /// Cyclin-A2 cyclin A2 CCNA2 365 AK291931 /// gene:ENSG00000145386 /// NM_001237 Homo sapiens cDNA FLJ77347 complete cds, highly similar to Homo sapiens cyclin A2 (CCNA2), mRNA. /// Homo sapiens cyclin A2 (CCNA2), mRNA. 7897960 ENST00000332530 /// arylacetamide deacetylase-like 3 arylacetamide AADACL3 366 ENST00000359318 /// isoform 2 deacetylase-like 3 NM_001103169 /// gene:ENSG00000188984 /// NM_001103170 Arylacetamide deacetylase-like 3 gene:ENSG00000188984 /// Homo sapiens arylacetamide deacetylase-like 3 (AADACL3), transcript variant 2, mRNA. /// Homo sapiens arylacetamide deacetylase-like 3 (AADACL3), transcript variant 1, mRNA. 8055424 ENST00000363794 ncrna:misc_RNA — — 367 chromosome:NCBI36:2:136284209:136284319:−1 gene:ENSG00000200664 8097704 ENST00000296582 /// Isoform 1 of Transmembrane transmembrane protein TMEM184C 368 BC046128 /// protein 184C 184C NM_018241 gene:ENSG00000164168 /// Homo sapiens transmembrane protein 184C, mRNA (cDNA clone MGC:57601 IMAGE:5750613), complete cds. /// Homo sapiens transmembrane protein 184C (TMEM184C), mRNA. 8106820 ENST00000399107 /// DNA-directed RNA polymerase /// polymerase (RNA) /// POLR3G 369 AK295434 /// subunit G (DNA directed) NM_006467 gene:ENSG00000113356 /// polypeptide G (32kD) Homo sapiens cDNA FLJ60555 complete cds, highly similar to DNA-directed RNA polymerase /// subunit G (EC2.7.7.6). /// Homo sapiens polymerase (RNA) /// (DNA directed) polypeptide G (32kD) (POLR3G), mRNA. 7992782 ENST00000396927 /// Claudin-9 claudin 9 /// HCTP4- CLDN9 /// 370 AK091002 /// gene:ENSG00000213937 /// binding protein LOC100134406 AY390431 /// Homo sapiens cDNA FLJ33683 NM_020982 fis, clone BRAWH2002623, highly similar to CLAUDIN-9. /// Homo sapiens HCTP4-binding protein mRNA, complete cds. /// Homo sapiens claudin 9 (CLDN9), mRNA. 8089830 ENST00000295628 /// Leucine-rich repeat-containing leucine rich repeat LRRC58 371 NM_001099678 protein 58 containing 58 gene:ENSG00000163428 /// Homo sapiens leucine rich repeat containing 58 (LRRC58), mRNA. 7998629 GENSCAN00000001581 cdna:Genscan — — 372 chromosome:NCBI36:16:1831818:1893847:−1 7943736 hsa-mir-34b /// MI0000742 Homo sapiens miR- — — 373 hsa-mir-34b 34b stem-loop /// MI0000742 Homo sapiens miR-34b stem-loop 7921356 ENST00000392265 /// Seven transmembrane helix olfactory receptor, OR10K2 374 ENST00000314902 /// receptor family 10, NM_001004476 gene:ENSG00000180708 /// subfamily K, Olfactory receptor 10K2 member 2 gene:ENSG00000180708 /// Homo sapiens olfactory receptor, family 10, subfamily K, member 2 (OR10K2), mRNA. 8052413 GENSCAN00000048378 /// cdna:Genscan — — 375 ENST00000404638 chromosome:NCBI36:2:60815529:60816357:−1 /// cdna:pseudogene chromosome:NCBI36:2:60815529:60816366:−1 gene:ENSG00000217407 7961865 ENST00000256078 /// Isoform 2A of GTPase KRas v-Ki-ras2 Kirsten rat KRAS 376 ENST00000311936 /// gene:ENSG00000133703 /// sarcoma viral ENST00000395977 /// Isoform 2B of GTPase KRas oncogene homolog M54968 /// gene:ENSG00000133703 /// NM_004985 /// Isoform 2A of GTPase KRas NM_033360 gene:ENSG00000133703 /// Homo sapiens K-ras oncogene protein (KRAS) mRNA, complete cds. /// Homo sapiens v-Ki-ras2 Kirsten rat sarcoma viral oncogene homolog (KRAS), transcript variant b, mRNA. /// Homo sapiens v-Ki-ras2 Kirsten rat sarcoma viral oncogene homolog (KRAS), transcript variant a, mRNA. 8142019 ENST00000297431 /// Origin recognition complex origin recognition ORC5L 377 AK302122 /// subunit 5 complex, NM_002553 /// gene:ENSG00000164815 /// subunit 5-like NM_181747 Homo sapiens cDNA FLJ53851 (yeast) complete cds, highly similar to Origin recognition complex subunit 5. /// Homo sapiens origin recognition complex, subunit 5- like (yeast) (ORC5L), transcript variant 1, mRNA. /// Homo sapiens origin recognition complex, subunit 5-like (yeast) (ORC5L), transcript variant 2, mRNA. 8009873 ENST00000325720 /// cdna:known myosin XVB MYO15B 378 AF418286 /// chromosome:NCBI36:17:71097148:71101765:1 pseudogene NR_003587 gene:ENSG00000204326 /// Homo sapiens clone 1 myosin XVBP (MYO15B) pseudogene, partial sequence. /// Homo sapiens myosin XVB pseudogene (MYO15B) on chromosome 17. 8149749 ENST00000312584 /// Tumor necrosis factor receptor tumor necrosis factor TNFRSF10D 379 AY358285 /// superfamily member 10D receptor superfamily, NM_003840 gene:ENSG00000173530 /// member 10d, decoy Homo sapiens clone DNA35663 with truncated death DCR2-TNFR (UNQ251) mRNA, domain complete cds. /// Homo sapiens tumor necrosis factor receptor superfamily, member 10d, decoy with truncated death domain (TNFRSF10D), mRNA. 7986665 ENST00000337451 /// Non-imprinted in Prader- non imprinted in NIPA2 380 ENST00000359727 /// Willi/Angelman syndrome region Prader-Willi/ ENST00000398014 /// protein 2 Angelman ENST00000398013 /// gene:ENSG00000140157 /// non syndrome 2 BC011775 /// imprinted in Prader- NM_030922 /// Willi/Angelman syndrome 2 NM_001008892 /// isoform b NM_001008894 /// gene:ENSG00000140157 /// Non- NM_001008860 imprinted in Prader- Willi/Angelman syndrome region protein 2 gene:ENSG00000140157 /// Non- imprinted in Prader- Willi/Angelman syndrome region protein 2 gene:ENSG00000140157 /// Homo sapiens non imprinted in Prader-Willi/Angelman syndrome 2, mRNA (cDNA clone MGC:19609 IMAGE:3640970), complete cds. /// Homo sapiens non imprinted in Prader- Willi/Angelman syndrome 2 (NIPA2), transcript variant 1, mRNA. /// Homo sapiens non imprinted in Prader- Willi/Angelman syndrome 2 (NIPA2), transcript variant 3, mRNA. /// Homo sapiens non imprinted in Prader- Willi/Angelman syndrome 2 (NIPA2), transcript variant 4, mRNA. /// Homo sapiens non imprinted in Prader- Willi/Angelman syndrome 2 (NIPA2), transcript variant 2, mRNA. 8163015 ENST00000386231 /// ncrna:scRNA_pseudogene — — 381 ENST00000411190 chromosome:NCBI36:9:109613716:109614016:−1 gene:ENSG00000208966 /// ncrna:misc_RNA chromosome:NCBI36:9:109613719:109614016:−1 gene:ENSG00000223122 8007548 AF143236 Homo sapiens apoptosis related chromosome 17 open C17orf88 382 protein APR-2 mRNA, complete reading frame 88 cds. 7923659 ENST00000367188 /// Protein phosphatase 1 regulatory protein phosphatase 1, PPP1R15B 383 BC065280 /// subunit 15B regulatory (inhibitor) NM_032833 gene:ENSG00000158615 /// subunit 15B Homo sapiens protein phosphatase 1, regulatory (inhibitor) subunit 15B, mRNA (cDNA clone MGC:74824 IMAGE:6172811), complete cds. /// Homo sapiens protein phosphatase 1, regulatory (inhibitor) subunit 15B (PPP1R15B), mRNA. 8001666 ENST00000262506 /// Casein kinase II subunit alpha′ casein kinase 2, alpha CSNK2A2 384 M55268 /// gene:ENSG00000070770 /// prime polypeptide NM_001896 Human casein kinase II alpha′ subunit mRNA, complete cds. /// Homo sapiens casein kinase 2, alpha prime polypeptide (CSNK2A2), mRNA. 8155418 ENST00000316269 /// hypothetical protein hypothetical protein LOC100133036 /// 385 AK125850 /// gene:ENSG00000204831 /// LOC100133036 /// FAM95B1 AL833349 Homo sapiens cDNA FLJ43862 family with sequence fis, clone TESTI4007775. /// similarity 95, member Homo sapiens mRNA; cDNA B1 DKFZp686P0734 (from clone DKFZp686P0734). 7952046 ENST00000278937 /// Myelin protein zero-like protein 2 myelin protein MPZL2 386 BC017774 /// gene:ENSG00000149573 /// zero-like 2 NM_144765 /// Homo sapiens myelin protein NM_005797 zero-like 2, mRNA (cDNA clone MGC:22243 IMAGE:4692569), complete cds. /// Homo sapiens myelin protein zero-like 2 (MPZL2), transcript variant 2, mRNA. /// Homo sapiens myelin protein zero-like 2 (MPZL2), transcript variant 1, mRNA. 8141843 uc003vad.1 /// /// PREDICTED:Homo sapiens similar to HSPC047 LOC100134722 /// 387 XM_001725218 /// similar to HSPC047 protein protein /// similar to LOC100133005 XM_001718200 (LOC100134722), mRNA. /// RAS p21 protein PREDICTED:Homo sapiens activator 4 similar to RAS p21 protein activator 4 (LOC100133005), mRNA. 8023175 ENST00000256433 /// Immediate early response 3- immediate early IER3IP1 388 AK027108 /// interacting protein 1 response 3 interacting NM_016097 gene:ENSG00000134049 /// protein 1 Homo sapiens cDNA:FLJ23455 fis, clone HSI07063, highly similar to AF125100 Homo sapiens HSPC039 protein mRNA. /// Homo sapiens immediate early response 3 interacting protein 1 (IER3IP1), mRNA. 8072153 ENST00000249064 /// Isoform 1 of Coiled-coil domain- coiled-coil domain CCDC117 389 BC053874 /// containing protein 117 containing 117 NM_173510 gene:ENSG00000159873 /// Homo sapiens coiled-coil domain containing 117, mRNA (cDNA clone MGC:61737 IMAGE:5531689), complete cds. /// Homo sapiens coiled-coil domain containing 117 (CCDC117), mRNA. 7928308 ENST00000307365 /// DNA-damage-inducible transcript DNA-damage- DDIT4 390 BC007714 /// 4 protein inducible NM_019058 gene:ENSG00000168209 /// transcript 4 Homo sapiens DNA-damage- inducible transcript 4, mRNA (cDNA clone MGC:12610 IMAGE:4302878), complete cds. /// Homo sapiens DNA-damage- inducible transcript 4 (DDIT4), mRNA. 8108099 ENST00000322887 /// Isoform 2 of Protein transport SEC24 family, SEC24A 391 ENST00000398844 /// protein Sec24A member ENST00000265341 /// gene:ENSG00000113615 /// A (S. cerevisiae) AK304060 /// Isoform 1 of Protein transport NM_021982 protein Sec24A gene:ENSG00000113615 /// cDNA FLJ61651, highly similar to Protein transport protein Sec24A gene:ENSG00000113615 /// Homo sapiens cDNA FLJ61651 complete cds, highly similar to Protein transport protein Sec24A. /// Homo sapiens SEC24 family, member A (S. cerevisiae) (SEC24A), mRNA.

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1. A non-naturally occurring dendritic-like myeloid leukaemia cell according to ATCC Patent Deposit Designation PTA-123875.
 2. A cell culture comprising a population of cells according to claim
 1. 3. An in vitro method for identifying agents capable of inducing sensitization and/or allergenicity in a mammal comprising the steps of: (a) exposing a population of the dendritic-like cells according to claim 1 to a test agent; and (b) measuring in the cells the expression of one or more biomarker(s) selected from the group defined in one or more of Tables A, B, C, D, and E; wherein the expression in the cells of the one or more biomarkers measured in step (b) is indicative of the sensitizing and/or allergenic effect of the test agent.
 4. An in vitro method for identifying agents capable of inducing sensitization of mammalian skin comprising the steps of: (a) exposing a population of the dendritic-like cells according to claim 1 to a test agent; and (b) measuring in the cells the expression of one or more biomarker(s) selected from the group defined in Table A; wherein the expression in the cells of the one or more biomarkers measured in step (b) is indicative of the skin sensitizing effect of the test agent.
 5. A method for identifying agents capable of inducing respiratory sensitization in a mammal comprising the steps of: (a) exposing a population of the dendritic-like cells according to claim 1 to a test agent; and (b) measuring in the cells the expression of one or more biomarker(s) selected from the group defined in Table B or C; wherein the expression in the cells of the one or more biomarkers measured in step (b) is indicative of the respiratory sensitizing effect of the test agent.
 6. A method for determining the skin sensitizing potency of an agent comprising the steps of: (a) providing a population of the dendritic-like cells according to claim 1; (b) exposing the cells provided in step (a) to a test agent; and (c) measuring in the cells of step (b) the expression of one or more biomarkers selected from the group defined in Table D; wherein the expression of the one or more biomarkers measured in step (c) is indicative of the skin sensitizing potency of the test agent of step (b).
 7. A method for identifying proteins which are allergenic in a mammal comprising the steps of: (a) providing a population of the dendritic-like cells according to claim 1; (b) exposing the cells provided in step (a) to a test protein; and (c) measuring in the cells of step (b) the expression of one or more biomarkers selected from the group defined in Table E; wherein the expression of the one or more biomarkers measured in step (c) is indicative of the allergenicity of the test protein of step (b).
 8. The method according to claim 3 further comprising: (c) exposing a separate population of the dendritic-like cells to one or more negative control agent that does not induce sensitization and/or allergy in a mammal; and (d) measuring in the cells of step (c) the expression of the one or more biomarkers measured in step (b) wherein the test agent is identified as a sensitizer and/or as allergenic in the event that the expression of the one or more biomarkers measured in step (d) differs from the expression of the one or more biomarkers measured in step (b), and/or (e) exposing a separate population of the dendritic-like cells to one or more positive control agent that induces sensitization and/or is allergenic in a mammal; and (f) measuring in the cells of step (e) the expression of the one or more biomarkers measured in step (b) wherein the test agent is identified as a sensitizer and/or as allergenic in the event that the expression of the one or more biomarkers measured in step (f) corresponds to the expression of the one or more biomarkers measured in step (b).
 9. (canceled)
 10. The method according to claim 3, wherein step (b) comprises measuring the expression of a nucleic acid molecule of one or more of the biomarkers, optionally wherein the nucleic acid molecule is a cDNA molecule or an mRNA molecule.
 11. (canceled)
 12. (canceled)
 13. The method according to claim 10 wherein measuring the expression of one or more of the biomarkers is performed using a method selected from the group consisting of Southern hybridisation, Northern hybridisation, polymerase chain reaction (PCR), reverse transcriptase PCR (RT-PCR), quantitative real-time PCR (qRT-PCR), nanoarray, microarray, macroarray, autoradiography and in situ hybridisation.
 14. (canceled)
 15. The method according to claim 3 wherein measuring the expression of one or more of the biomarkers in step (b) is performed using one or more binding moieties, each capable of binding selectively to a nucleic acid molecule encoding one of the biomarkers identified in one or more of Tables A-E, optionally wherein the one or more binding moieties: i) comprise a nucleic acid molecule, ii) comprise DNA, RNA, PNA, LNA, GNA, TNA or PMO, and/or iii) comprise a detectable moiety. 16-21. (canceled)
 22. The method according to claim 15, wherein the detectable moiety is selected from the group consisting of: a fluorescent moiety; a luminescent moiety; a chemiluminescent moiety; a radioactive moiety or atom; or an enzymatic moiety.
 23. (canceled)
 24. (canceled)
 25. The method according to claim 3, wherein step (b) comprises measuring the expression of the protein of one or more of the biomarkers.
 26. The method according to claim 25 wherein measuring the expression of one or more of the biomarkers is performed using one or more binding moieties each capable of binding selectively to one of the biomarkers identified in one or more of Tables A-E.
 27. The method according to claim 26 wherein the one or more binding moieties comprise an antibody or an antigen-binding fragment thereof.
 28. The method according to claim 26, wherein the one or more binding moieties comprise a detectable moiety.
 29. The method according to claim 28 wherein the detectable moiety is selected from the group consisting of a fluorescent moiety, a luminescent moiety, a chemiluminescent moiety, a radioactive moiety or atom, and an enzymatic moiety.
 30. The method according to claim 3, wherein steps step (b) is performed using an array, optionally wherein the array is a bead-based array, a surface-based array, a microarray, a microarray, or a nanoarray. 31-33. (canceled)
 34. The method according to claim 3, wherein step (b) comprises measuring the expression of all of the biomarkers listed in any one of Tables A, B, C, D, and E.
 35. (canceled)
 36. An analytical kit comprising: (i) an array comprising one or more binding moieties; (ii) one or more cell as defined in claim 1; (iii) optionally one or more control agent; and (iv) optionally instructions for use.
 37. (canceled)
 38. (canceled) 